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640 lines
20 KiB
640 lines
20 KiB
/*++
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Copyright (c) 1995 Microsoft Corporation
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Module Name:
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podata.c
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Abstract:
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This module contains the global read/write data for the I/O system.
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Author:
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N. Yoshiyama [IBM Corp] 07-April-1994 ( Depends on Microsoft's design )
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Revision History:
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--*/
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#include "pop.h"
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#ifdef ALLOC_DATA_PRAGMA
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#pragma const_seg("PAGECONST")
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#endif // ALLOC_DATA_PRAGMA
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#include "initguid.h" // define PO guids
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#include "poclass.h"
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#ifdef ALLOC_DATA_PRAGMA
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#pragma const_seg()
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#endif // ALLOC_DATA_PRAGMA
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//
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// Define the global data for the Power Management.
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//
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//
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// Power Locks
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//
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//
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// Protects the IRP serial list.
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//
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KSPIN_LOCK PopIrpSerialLock;
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//
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// Protects all Dope structures and dependents,
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// including all Notify and Idle operations.
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//
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KSPIN_LOCK PopDopeGlobalLock;
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//
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// Must be held during creation or
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// destruction of power notify channel
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// structures.
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ERESOURCE PopNotifyLock;
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//
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// PoPowerSequence - The current power sequence value. Forever counts
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// up each time the machine is resumed from a suspend or hibernate
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//
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ULONG PoPowerSequence;
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//
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// PopInvalidNotifyBlockCount is the number of power notify blocks which
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// have been invalidated but not fully closed up and freed. Should be 0
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// most of the time. Non-0 indicates callers have failed to clean up
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// in response to an Invalidate notify.
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//
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ULONG PopInvalidNotifyBlockCount;
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//
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// Irp serializtion and Inrush serialization - pocall.c and related
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//
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LIST_ENTRY PopIrpSerialList;
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ULONG PopIrpSerialListLength;
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BOOLEAN PopInrushPending;
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PIRP PopInrushIrpPointer;
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LONG PopInrushIrpReferenceCount;
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//
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// PopSystemIrpDisptachWorker control, etc
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//
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KSPIN_LOCK PopWorkerLock;
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ULONG PopCallSystemState;
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//
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// For debugging, a list of all the outstanding PoRequestPowerIrps
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//
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LIST_ENTRY PopRequestedIrps;
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//
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// For logging supported power states, a list of reason structures.
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//
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LIST_ENTRY PowerStateDisableReasonListHead;
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//
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// Idle detection service - see idle.c
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//
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// When adding to, removing from, or scanning the IdleDetectList, code
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// must be at DPC_LEVEL and must hold the PopGlobalDopeLock
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//
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LIST_ENTRY PopIdleDetectList;
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//
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// A timer & defered procedure call to process idle scans
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//
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KTIMER PopIdleScanTimer;
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KDPC PopIdleScanDpc;
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LARGE_INTEGER PopIdleScanTime;
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//
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// Two scan modes, performance, conservation...
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//
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BOOLEAN PopIdleDetectionMode = PO_IDLE_PERFORMANCE;
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//
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// This value holds all Power Management Simulation Flags
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//
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ULONG PopSimulate = POP_ENABLE_HIBER_PERF;
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//
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// These defines are only used to initialize these global variables,
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// so it makes sense to pair them all up. The global variables are
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// all used for idle state transition calculations
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//
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//
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// When throttling down an idle processor, keep it at least 30% active
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//
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#define IDLE_DEFAULT_MIN_THROTTLE 30
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ULONG PopIdleDefaultMinThrottle = IDLE_DEFAULT_MIN_THROTTLE;
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//
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// When a processor is throttled down, queue a timer to verify that a
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// processor does not go significantly "busy" and never returns to
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// the idle loop for a throttle adjustment
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// N.B idle values are in microseconds
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//
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#define IDLE_THROTTLE_CHECK_RATE 30000 // 30ms
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ULONG PopIdleThrottleCheckRate = IDLE_THROTTLE_CHECK_RATE;
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//
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// If the throttle check timer noticies a processor has not returned
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// to the idle loop for at least 100ms, then abort it's throttle
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//
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#define IDLE_THROTTLE_CHECK_TIMEOUT 100000 // 100ms
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ULONG PopIdleThrottleCheckTimeout = IDLE_THROTTLE_CHECK_TIMEOUT;
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//
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// To promote from Idle 0 the processor must be more then 90% idle over
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// the last 10 seconds
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//
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#define IDLE_FROM_0_DELAY 10000000 // 10 seconds
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#define IDLE_FROM_0_IDLE_PERCENT 90 // > 90% to promote from idle 0
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ULONG PopIdleFrom0Delay = IDLE_FROM_0_DELAY;
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ULONG PopIdleFrom0IdlePercent = IDLE_FROM_0_IDLE_PERCENT;
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//
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// First idle handler checks no more then every 100ms
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// idle below 20%
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//
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#define IDLE_0_TIME_CHECK 500000 // 500ms
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ULONG PopIdle0TimeCheck = IDLE_0_TIME_CHECK;
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//
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// When in other idle state check every 100ms
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//
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#define IDLE_TIME_CHECK 100000 // 100ms
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ULONG PopIdleTimeCheck = IDLE_TIME_CHECK;
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//
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// To demote to Idle 0 the processor must be less then 80% idle in a 100ms window
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//
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#define IDLE_TO_0_PERCENT 80
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ULONG PopIdleTo0Percent = IDLE_TO_0_PERCENT;
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//
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// The default demotion occurs at less then 50% idle for 100ms
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// N.B. The implementation assumes that IDLE_DEFAULT_DEMOTE_TIME divides
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// into IDLE_DEFAULT_PROMOTE_TIME evenly
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//
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#define IDLE_DEFAULT_DEMOTE_PERCENT 50
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#define IDLE_DEFAULT_DEMOTE_TIME 100000
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ULONG PopIdleDefaultDemotePercent = IDLE_DEFAULT_DEMOTE_PERCENT;
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ULONG PopIdleDefaultDemoteTime = IDLE_DEFAULT_DEMOTE_TIME;
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//
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// The default promotion occurs at more then 70% idle for 500ms
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//
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#define IDLE_DEFAULT_PROMOTE_TIME 500000 // 500ms
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#define IDLE_DEFAULT_PROMOTE_PERCENT 70
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ULONG PopIdleDefaultPromotePercent = IDLE_DEFAULT_PROMOTE_PERCENT;
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ULONG PopIdleDefaultPromoteTime = IDLE_DEFAULT_PROMOTE_TIME;
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//
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// We define special extra global variables to handle promotion to/from
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// C1. The reason that we do this is so that we can more finely tune these
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// values.
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//
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ULONG PopIdleDefaultDemoteToC1Percent = IDLE_DEFAULT_DEMOTE_PERCENT;
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ULONG PopIdleDefaultDemoteToC1Time = IDLE_DEFAULT_DEMOTE_TIME;
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ULONG PopIdleDefaultPromoteFromC1Percent = IDLE_DEFAULT_PROMOTE_PERCENT;
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ULONG PopIdleDefaultPromoteFromC1Time = IDLE_DEFAULT_PROMOTE_TIME;
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//
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// We convert PopIdleFrom0Delay (which is in ms) over to KeTimeIncrement
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// intervals. This is the number of ticks needed for processor to be idle before
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// we consider a promotion out of the Idle0 state
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//
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ULONG PopIdle0PromoteTicks;
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//
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// We convert PopIdleFrom0Delay and PopIdleFrom0IdlePercent percent into
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// KeTimeIncrement inverals. This is the number of ticks allowed to acculate the
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// the PromoteTicks time
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//
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ULONG PopIdle0PromoteLimit;
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//
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// These global variables and definitions all relate to CPU throttle management
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//
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//
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// A value that defines the period of time, in microseconds (us) between
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// intervals to check the processor busyness for the purposes of processor
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// throttling by the idle thread. Note that we need to convert this value
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// to KeTimeIncrement intervals. We store the converted number in
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// PopPerfTimeTicks
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//
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#define PROC_PERF_TIME_DELTA 50000 // 50ms
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ULONG PopPerfTimeDelta = PROC_PERF_TIME_DELTA;
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ULONG PopPerfTimeTicks = 0;
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//
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// A value that defines the period of time, in microseconds (us) between
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// intervals to check the processor busyness for the purposes of processor
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// throttling by a DPC routine. Note that we need to convert this value
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// to KeTimeIncrement intervals. We store the converted number in
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// PopPerfCriticalTimeTicks.
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//
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#define PROC_PERF_CRITICAL_TIME_DELTA 300000 // 300ms
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ULONG PopPerfCriticalTimeDelta = PROC_PERF_CRITICAL_TIME_DELTA;
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ULONG PopPerfCriticalTimeTicks = 0;
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//
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// A percentage value that is added to the current CPU busyness percentage
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// to determine if the processor is too busy for the current performance
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// state and must be promoted. The closer the value is to zero, the harder it
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// is for the processor to promote itself during times of extreme workloads
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//
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#define PROC_PERF_CRITICAL_FREQUENCY_DELTA 0 // 0%
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ULONG PopPerfCriticalFrequencyDelta = PROC_PERF_CRITICAL_FREQUENCY_DELTA;
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//
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// A percentage value where lower means that the overall IncreaseLevel will
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// actually be higher (and thus promotions won't occur as frequently) that
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// indicates what percentage of the delta betwene the current state and the
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// state to promote to should be used to set the promote level. A suggested
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// value would be 20%
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//
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#define PROC_PERF_INCREASE_PERC_MOD 20 // 20%
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ULONG PopPerfIncreasePercentModifier = PROC_PERF_INCREASE_PERC_MOD;
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//
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// A percentage value where lower means that the overall IncreaseLevel will
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// actually be higher (and thus promotions won't occur as frequently) that
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// indicates how many extra percentage points to remove from the promote level.
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// It should be noted that if this value is particularly high, confusion migh
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// result due to overlapping windows. A suggested value would be 1%
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//
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#define PROC_PERF_INCREASE_ABS_MOD 1 // 1%
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ULONG PopPerfIncreaseAbsoluteModifier = PROC_PERF_INCREASE_ABS_MOD;
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//
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// A percentage value where higher means that the overall DecreaseLevel will
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// actually be lower (and thus demotions won't occur as frequently) that
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// indicates what percentage of the delta between the current state and the
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// state to demote to should be used to set the demote level. A suggested
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// value is 30%
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//
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#define PROC_PERF_DECREASE_PERC_MOD 30 // 50%
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ULONG PopPerfDecreasePercentModifier = PROC_PERF_DECREASE_PERC_MOD;
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//
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// A percentage value where higher means that the overall DecreaseLevel will
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// actually be lower (and thus demotions won't occur as frequently) that
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// indicates how many extra percentage points to subtract from the demote
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// level. It should be noted that if the value is particularly high, then it
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// might not be possible to demote from this state. A suggested value would be
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// 1%
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//
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#define PROC_PERF_DECREASE_ABS_MOD 1 // 1%
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ULONG PopPerfDecreaseAbsoluteModifier = PROC_PERF_DECREASE_ABS_MOD;
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//
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// A value that defines the period of time, in microseconds (us) that must
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// have occured before a throttle increase can be considered. This value is
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// used as the basis for calculating the promotion time for each throttle
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// step
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//
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#define PROC_PERF_INCREASE_TIME 10000 // 10 ms
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#define PROC_PERF_INCREASE_MINIMUM_TIME 150000 // 150 ms
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ULONG PopPerfIncreaseTimeValue = PROC_PERF_INCREASE_TIME;
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ULONG PopPerfIncreaseMinimumTime = PROC_PERF_INCREASE_MINIMUM_TIME;
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//
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// A value that defines the period of time, in microseconds (us) that must
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// have occured before a throttle decrease can be considered. This value is
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// used as the basis for calculating the demotion time for each throttle
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// step
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//
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#define PROC_PERF_DECREASE_TIME 10000 // 10 ms
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#define PROC_PERF_DECREASE_MINIMUM_TIME 500000 // 500 ms
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ULONG PopPerfDecreaseTimeValue = PROC_PERF_DECREASE_TIME;
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ULONG PopPerfDecreaseMinimumTime = PROC_PERF_DECREASE_MINIMUM_TIME;
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//
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// A percentage value that represents at what point of battery capacity we
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// will start forcing down the throttle when we are in Degraded Throttling
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// mode. For example, a value of 50% means that we will start throttling
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// down the CPU when the battery reaches 50%
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//
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#define PROC_PERF_DEGRADE_MIN_CAP 50 // 50%
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ULONG PopPerfDegradeThrottleMinCapacity = PROC_PERF_DEGRADE_MIN_CAP;
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//
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// A percentage value that represents the lowest frequency we can force the
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// throttle down to when we are in the Degraded Throttling mode. For example,
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// a value of 30% means that we will never force the CPU below 30%
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//
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#define PROC_PERF_DEGRADE_MIN_FREQ 30 // 30%
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ULONG PopPerfDegradeThrottleMinFrequency = PROC_PERF_DEGRADE_MIN_FREQ;
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//
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// A percentage value that represents the maximum amount of time that was
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// spent in C3 for the last quanta before the idle loop will deside that
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// it should optimize power for C3 usage. A sample value would be 50%
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//
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#define PROC_PERF_MAX_C3_FREQUENCY 50 // 50%
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ULONG PopPerfMaxC3Frequency = PROC_PERF_MAX_C3_FREQUENCY;
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#if DBG
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//
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// PoDebug - Debug level
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//
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ULONG PoDebug = PO_ERROR;
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#endif
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//
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// PopPolicyLock - Protects policy data structures
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//
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ERESOURCE PopPolicyLock;
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//
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// PopWorkerSpinLock - Protects worker dispatch data
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// PopWorkerPending - A set bit for each worker cataogry which is pending
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// PopWorkerStatus - A clear bit for each worker catagory being serived
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//
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KSPIN_LOCK PopWorkerSpinLock;
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ULONG PopWorkerPending;
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ULONG PopWorkerStatus;
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//
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// PopNotifyEvents - PO_NOTIFY_xxx events which have fired.
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//
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LONG PopNotifyEvents;
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//
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// PopVolumeLock - protects PopVolumeDevices from insertion. (removal is
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// protected by the policy lock
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//
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KGUARDED_MUTEX PopVolumeLock;
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KGUARDED_MUTEX PopRequestWakeLock;
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//
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// PopVolumeDevices - a list of off device objects which have had a VPBs attached
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//
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LIST_ENTRY PopVolumeDevices = {0};
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//
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// PopRequestWakeLock - synchronizes NtRequest/CancelDeviceWakeup
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//
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//
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// PopPolicyWorker - Work queue item to get another worker thread
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//
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WORK_QUEUE_ITEM PopPolicyWorker;
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//
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// PopIdle - Pointer to Array of idle handlers.
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//
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PPOP_IDLE_HANDLER PopIdle;
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//
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// PopIdleHandlerLookAsideList - List to allocate storage from for idle
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// handlers.
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//
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NPAGED_LOOKASIDE_LIST PopIdleHandlerLookAsideList;
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//
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// PopAttribute - Book keeping
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//
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POP_STATE_ATTRIBUTE PopAttributes[POP_NUMBER_ATTRIBUTES] = {
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0, PopSystemRequiredSet, FALSE, 0,
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0, PopDisplayRequired, TRUE, 0, // 0, PopSetNotificationWork, TRUE, PO_NOTIFY_DISPLAY_REQUIRED,
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0, PopUserPresentSet, FALSE, 0,
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0, PopAttribNop, FALSE, 0,
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0, PopSetNotificationWork, TRUE, PO_NOTIFY_CAPABILITIES
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};
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//
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// PopFullWake - Flag to indicate the system has transistioned from
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// a quite wake to a full wake
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//
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LONG PopFullWake;
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//
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// PoHiberInProgress - True when in the critical hibernation section
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//
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BOOLEAN PoHiberInProgress;
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//
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// PopShutdownCleanly - Controls whether clean shutdown sequence should
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// be used.
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//
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ULONG PopShutdownCleanly = 0;
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//
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// PopDispatchPolicyIrps - Used to prevent policy irps from dispatching
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// until the base drivers are loaded
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//
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BOOLEAN PopDispatchPolicyIrps;
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//
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// PopSystemIdleTimer - Timer used to get idle system detection worker
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//
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KTIMER PoSystemIdleTimer;
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//
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// PopSIdle - tracks the idle state of the system
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//
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POP_SYSTEM_IDLE PopSIdle;
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//
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// PopPolicyLockThread - Conains the current owning thread of the
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// policy mutex.
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//
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PKTHREAD PopPolicyLockThread = NULL;
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//
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// PopAcPolicy - current power policy being implemented while on AC
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// PopDcPolicy - current power policy being implemented while not on AC
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// PopPolicy - current active policy
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//
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SYSTEM_POWER_POLICY PopAcPolicy = {0};
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SYSTEM_POWER_POLICY PopDcPolicy = {0};
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PSYSTEM_POWER_POLICY PopPolicy = NULL;
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//
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// PopAcProcessorPolicy - current processor power policy being implemented on AC
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// PopDcProcessorPolicy - current processor power policy being implemented on DC
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// PopProcessorPolicy - current active policy
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//
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PROCESSOR_POWER_POLICY PopAcProcessorPolicy = {0};
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PROCESSOR_POWER_POLICY PopDcProcessorPolicy = {0};
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PPROCESSOR_POWER_POLICY PopProcessorPolicy = NULL;
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//
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// PopAction - Current power action being taken
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//
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POP_POWER_ACTION PopAction = {0};
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//
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// Spinlock that protects the thermal zones
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//
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KSPIN_LOCK PopThermalLock;
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//
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// PopSwitches - list of button and lid devices currently opened
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//
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LIST_ENTRY PopSwitches = {0};
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//
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// User-present work item
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//
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WORK_QUEUE_ITEM PopUserPresentWorkItem = {0};
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//
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// Performance counter frequency used by throttle.c
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//
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LARGE_INTEGER PopPerfCounterFrequency;
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#ifdef ALLOC_DATA_PRAGMA
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#pragma data_seg("PAGEDATA")
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#pragma const_seg("PAGECONST")
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#endif
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//
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// Notify worker dispatch
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//
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const POP_NOTIFY_WORK PopNotifyWork[PO_NUMBER_NOTIFY] = {
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PopDispatchCallback, PO_CB_BUTTON_COLLISION,
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PopDispatchFullWake, 0,
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PopDispatchCallback, PO_CB_SYSTEM_POWER_POLICY,
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PopDispatchAcDcCallback, 0,
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PopDispatchPolicyCallout, 0,
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PopDispatchDisplayRequired, 0,
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PopDispatchCallout, PsW32SystemPowerState,
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PopDispatchEventCodes, 0,
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PopDispatchCallout, PsW32CapabilitiesChanged,
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PopDispatchSetStateFailure, 0,
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PopDispatchCallback, PO_CB_PROCESSOR_POWER_POLICY,
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PopDispatchProcessorPolicyCallout, 0
|
|
};
|
|
|
|
//
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|
// PopAcRegName
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// PopDcRegName - registry location under current control set to store
|
|
// and retrieve current policy settings from
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|
//
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|
const WCHAR PopRegKey[] = L"Control\\Session Manager\\Power";
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const WCHAR PopAcRegName[] = L"AcPolicy";
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const WCHAR PopDcRegName[] = L"DcPolicy";
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|
const WCHAR PopUndockPolicyRegName[] = L"UndockPowerPolicy";
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|
const WCHAR PopAdminRegName[] = L"PolicyOverrides";
|
|
const WCHAR PopHeuristicsRegName[] = L"Heuristics";
|
|
const WCHAR PopCompositeBatteryName[] = L"\\Device\\CompositeBattery";
|
|
const WCHAR PopSimulateRegKey[] = L"Control\\Session Manager";
|
|
const WCHAR PopSimulateRegName[] = L"PowerPolicySimulate";
|
|
const WCHAR PopHiberFileName[] = L"\\hiberfil.sys";
|
|
const WCHAR PopDebugHiberFileName[] = L"\\hiberfil.dbg";
|
|
const WCHAR PopDumpStackPrefix[] = L"hiber_";
|
|
const WCHAR PopApmActiveFlag[] = L"\\Registry\\Machine\\System\\CurrentControlSet\\Control\\ApmActive";
|
|
const WCHAR PopApmFlag[] = L"Active";
|
|
const WCHAR PopAcProcessorRegName[] = L"AcProcessorPolicy";
|
|
const WCHAR PopDcProcessorRegName[] = L"DcProcessorPolicy";
|
|
|
|
//
|
|
// PopAdminPolcy - Administrator overrides to apply to the current policy
|
|
//
|
|
ADMINISTRATOR_POWER_POLICY PopAdminPolicy = {0};
|
|
|
|
//
|
|
// PopCapabilities - Misc information on how the systems actual functions
|
|
//
|
|
SYSTEM_POWER_CAPABILITIES PopCapabilities; // nonpaged
|
|
|
|
//
|
|
// PopEventCallout - callout to USER for power events
|
|
//
|
|
PKWIN32_POWEREVENT_CALLOUT PopEventCallout; // nonpaged
|
|
|
|
//
|
|
// PopStateCallout - callout to USER for power state changes
|
|
//
|
|
PKWIN32_POWERSTATE_CALLOUT PopStateCallout = NULL;
|
|
|
|
//
|
|
// PopThermal - list of thermal zones currently opened
|
|
//
|
|
LIST_ENTRY PopThermal; // nonpaged
|
|
|
|
//
|
|
// PopCoolingMode - system is in active or passive cooling mode
|
|
//
|
|
ULONG PopCoolingMode = 0;
|
|
|
|
//
|
|
// PopCB - composite battery
|
|
//
|
|
POP_COMPOSITE_BATTERY PopCB; // nonpaged
|
|
|
|
//
|
|
// PopPolicyIrpQueue - Policy irps which have completed are put onto
|
|
// this queue for processingby the worker thread
|
|
//
|
|
LIST_ENTRY PopPolicyIrpQueue; // nonpaged
|
|
|
|
//
|
|
// PopEventCode - Queued event codes
|
|
//
|
|
ULONG PopEventCode[POP_MAX_EVENT_CODES] = {0};
|
|
|
|
//
|
|
// PopWorkerTypes - Worker functions for each policy worker type
|
|
//
|
|
const POP_WORKER_TYPES PopWorkerTypes[] = {
|
|
PopPolicyWorkerMain,
|
|
PopPolicyWorkerActionPromote,
|
|
PopPolicyWorkerAction,
|
|
PopPolicyWorkerNotify,
|
|
PopPolicySystemIdle,
|
|
PopPolicyTimeChange
|
|
};
|
|
|
|
//
|
|
// PopActionWaiters - Queue of synchronous action requests
|
|
//
|
|
LIST_ENTRY PopActionWaiters = {0};
|
|
|
|
|
|
//
|
|
// PopHeuristics - Presistant settings are heuristics which are not part
|
|
// of the saved policy structures
|
|
//
|
|
POP_HEURISTICS PopHeuristics = {0};
|
|
|
|
#ifdef ALLOC_DATA_PRAGMA
|
|
#pragma const_seg()
|
|
#pragma data_seg()
|
|
#endif
|
|
|
|
//
|
|
// PopPowerStateHandler - Handlers for the various supported power states
|
|
//
|
|
POWER_STATE_HANDLER PopPowerStateHandlers[PowerStateMaximum] = {0};
|
|
|
|
//
|
|
// PopPowerStateNotifyHandler - Handler to be notify before and after invoking
|
|
// PopPowerStateHandlers
|
|
//
|
|
|
|
POWER_STATE_NOTIFY_HANDLER PopPowerStateNotifyHandler = {0};
|
|
|
|
//
|
|
// PopHiberFile - information on the hibernation file
|
|
// PopHiberFileDebug - a second hibernation file for debugging
|
|
//
|
|
POP_HIBER_FILE PopHiberFile = { NULL };
|
|
POP_HIBER_FILE PopHiberFileDebug = { NULL };
|