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balmgr.c MS and ReactOS
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7年前
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114 行
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NTOS Kernel
REACT OS
VOID
VOID
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KiScanReadyQueues
(
NTAPI
IN PKDPC Dpc,
KiScanReadyQueues
(
IN PKDPC Dpc,
IN PVOID DeferredContext,
IN PVOID DeferredContext,
IN PVOID SystemArgument1,
IN PVOID SystemArgument1,
IN PVOID SystemArgument2
IN PVOID SystemArgument2
)
)
/*++
Routine Description:
This function scans a section of the ready queues and attempts to
boost the priority of threads that run at variable priority levels.
N.B. This function is executed as a DPC from the periodic timer that
drives the balance set manager.
Arguments:
Dpc - Supplies a pointer to a DPC object - not used.
DeferredContext - Supplies the DPC context - not used.
SystemArgument1 - Supplies the first system argument - note used.
SystemArgument2 - Supplies the second system argument - note used.
Return Value:
None.
--*/
{
{
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P
ULONG
ScanLast
=
DeferredContext
;
ULONG
Count
=
0;
ULONG
Scan
Index
= *ScanLast
;
PLIST_ENTRY Entry
;
ULONG
Count = 10,
Number =
16
;
ULONG
Index
;
PKPRCB Prcb
= KiProcessorBlock[ScanIndex]
;
PLIST_ENTRY ListHead
;
ULONG
Index = Prcb->QueueIndex
;
ULONG
Number =
0;
ULONG
WaitLimit = KeTickCount.LowPart - 300
;
KIRQL OldIrql
;
PKPRCB Prcb
;
ULONG
ScanIndex
;
P
ULONG
ScanLast
;
ULONG Summary;
ULONG Summary;
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KIRQL OldIrql;
PLIST_ENTRY ListHead, NextEntry;
PKTHREAD Thread;
PKTHREAD Thread;
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ULONG WaitLimit;
UNREFERENCED_PARAMETER(SystemArgument1);
UNREFERENCED_PARAMETER(SystemArgument2);
//
// Get the address of the queue index variable.
//
// N.B. If a fault occurs accessing queue index value, then the exception
// handler is either executed or a bugcheck occurs.
//
ScanLast = (PULONG)DeferredContext;
#if defined(_AMD64_)
try {
ScanIndex = *ScanLast;
} except(KiKernelDpcFilter(Dpc, GetExceptionInformation())) {
return;
}
#else
UNREFERENCED_PARAMETER(Dpc);
ScanIndex = *ScanLast;
#endif
//
// Lock the dispatcher database, acquire the PRCB lock, and check if
// there are any ready threads queued at the scanable priority levels.
//
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Count = THREAD_READY_COUNT;
/* Lock the dispatcher and PRCB */
Number = THREAD_SCAN_COUNT;
OldIrql = KiAcquireDispatcherLock();
Prcb = KiProcessorBlock[ScanIndex];
Index = Prcb->QueueIndex;
WaitLimit = KiQueryLowTickCount() - READY_WITHOUT_RUNNING;
KiLockDispatcherDatabase(&OldIrql);
KiAcquirePrcbLock(Prcb);
KiAcquirePrcbLock(Prcb);
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/* Check if there's any thread that need help */
Summary = Prcb->ReadySummary & ((1 << THREAD_BOOST_PRIORITY) - 2);
Summary = Prcb->ReadySummary & ((1 << THREAD_BOOST_PRIORITY) - 2);
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if (Summary
!= 0) {
if (Summary
)
do {
{
/* Start scan loop */
//
do
// If the current ready queue index is beyond the end of the range
{
// of priorities that are scanned, then wrap back to the beginning
/* Normalize the index */
// priority.
if (Index > (THREAD_BOOST_PRIORITY - 1)) Index = 1;
//
if (Index > THREAD_SCAN_PRIORITY) {
Index = 1;
}
//
// If there are any ready threads queued at the current priority
// level, then attempt to boost the thread priority.
//
if (Summary & PRIORITY_MASK(Index)) {
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ASSERT(
IsListEmpty(&Prcb->DispatcherReadyListHead[Index])
== FALSE
);
/* Loop for ready threads */
if (Summary & PRIORITY_MASK(Index))
{
/* Sanity check */
ASSERT(
!
IsListEmpty(&Prcb->DispatcherReadyListHead[Index])
);
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/* Update summary and select list */
Summary ^= PRIORITY_MASK(Index);
Summary ^= PRIORITY_MASK(Index);
ListHead = &Prcb->DispatcherReadyListHead[Index];
ListHead = &Prcb->DispatcherReadyListHead[Index];
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Entry = ListHead->Flink;
Next
Entry = ListHead->Flink;
do
{
do
{
//
/
* Select a
thread
*/
/
/ If the
thread
has been waiting for an extended period,
Thread = CONTAINING_RECORD(
NextEntry,
// then boost the priority of the selected.
KTHREAD,
//
WaitListEntry);
ASSERT(Thread->Priority == Index);
Thread = CONTAINING_RECORD(
Entry, KTHREAD, WaitListEntry);
ASSERT(Thread->Priority == (KPRIORITY)Index);
if (WaitLimit >= Thread->WaitTime) {
//
// Remove the thread from the respective ready queue.
//
Entry = Entry->Blink;
ASSERT((Prcb->ReadySummary & PRIORITY_MASK(Index)) != 0);
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if (RemoveEntryList(
Entry->Flink)
!= FALSE) {
/* Check if the thread has been waiting too long */
if (WaitLimit >= Thread->WaitTime)
{
/* Remove the thread from the queue */
NextEntry = NextEntry->Blink;
ASSERT((Prcb->ReadySummary & PRIORITY_MASK(Index)));
if (RemoveEntryList(
Next
Entry->Flink)
)
{
/* The list is empty now */
Prcb->ReadySummary ^= PRIORITY_MASK(Index);
Prcb->ReadySummary ^= PRIORITY_MASK(Index);
}
}
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/
/
/
* Verify
priority decrement
and
set the new
one */
// Compute the
priority decrement
value,
set the new
// thread priority, set the thread quantum to a value
// appropriate for lock ownership, and insert the
// thread in the ready list.
//
ASSERT((Thread->PriorityDecrement >= 0) &&
ASSERT((Thread->PriorityDecrement >= 0) &&
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(Thread->PriorityDecrement <=
Thread->Priority));
(Thread->PriorityDecrement <=
Thread->Priority));
Thread->PriorityDecrement +=
Thread->PriorityDecrement +=
(THREAD_BOOST_PRIORITY -
(THREAD_BOOST_PRIORITY -
Thread->Priority);
Thread->Priority);
ASSERT((Thread->PriorityDecrement >= 0) &&
ASSERT((Thread->PriorityDecrement >= 0) &&
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(Thread->PriorityDecrement <=
THREAD_BOOST_PRIORITY));
(Thread->PriorityDecrement <=
THREAD_BOOST_PRIORITY));
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/* Update priority and insert into ready list */
Thread->Priority = THREAD_BOOST_PRIORITY;
Thread->Priority = THREAD_BOOST_PRIORITY;
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Thread->Quantum =
LOCK_OWNERSHIP
_QUANTUM
;
Thread->Quantum =
WAIT
_QUANTUM
_DECREMENT * 4
;
KiInsertDeferredReadyList(Thread);
KiInsertDeferredReadyList(Thread);
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Count -
= 1
;
Count -
-
;
}
}
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Entry =
Entry->Flink;
/* Go to the next entry */
Number
-= 1
;
Next
Entry =
Next
Entry->Flink;
} while
((
Entry != ListHead) && (Number
!= 0
) && (Count
!= 0
));
Number
--
;
} while
((Next
Entry != ListHead) && (Number
) && (Count
));
}
}
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Index
+= 1
;
/* Increase index */
} while ((Summary
!= 0
) && (Number
!= 0
) && (Count
!= 0
));
Index
++
;
} while ((Summary
) && (Number
) && (Count
));
}
}
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/
/
/
*
Release the
lock
s and
dispatcher
*/
//
Release the
PRCB
lock
, unlock the
dispatcher
database, and save the
// last ready queue index for the next scan.
//
KiReleasePrcbLock(Prcb);
KiReleasePrcbLock(Prcb);
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KiUnlockDispatcherDatabase
(OldIrql);
KiReleaseDispatcherLock
(OldIrql);
if ((Count
!= 0
) && (Number
!= 0)) {
/* Update the queue index for next time */
if ((Count
) && (Number
))
{
/* Reset the queue at index 1 */
Prcb->QueueIndex = 1;
Prcb->QueueIndex = 1;
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}
}
else
{
else
{
/* Set the index we're in now */
Prcb->QueueIndex = Index;
Prcb->QueueIndex = Index;
}
}
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//
/* Increment the CPU number for next time and normalize to CPU count */
// Increment the processor number.
ScanIndex++;
//
if (ScanIndex ==
KeNumberProcessors)
ScanIndex = 0;
ScanIndex += 1;
if (ScanIndex ==
(ULONG)
KeNumberProcessors)
{
ScanIndex = 0;
}
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/* Return the index */
*ScanLast = ScanIndex;
*ScanLast = ScanIndex;
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return;
}
}
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NTOS Kernel VOID KiScanReadyQueues ( IN PKDPC Dpc, IN PVOID DeferredContext, IN PVOID SystemArgument1, IN PVOID SystemArgument2 ) /*++ Routine Description: This function scans a section of the ready queues and attempts to boost the priority of threads that run at variable priority levels. N.B. This function is executed as a DPC from the periodic timer that drives the balance set manager. Arguments: Dpc - Supplies a pointer to a DPC object - not used. DeferredContext - Supplies the DPC context - not used. SystemArgument1 - Supplies the first system argument - note used. SystemArgument2 - Supplies the second system argument - note used. Return Value: None. --*/ { ULONG Count = 0; PLIST_ENTRY Entry; ULONG Index; PLIST_ENTRY ListHead; ULONG Number = 0; KIRQL OldIrql; PKPRCB Prcb; ULONG ScanIndex; PULONG ScanLast; ULONG Summary; PKTHREAD Thread; ULONG WaitLimit; UNREFERENCED_PARAMETER(SystemArgument1); UNREFERENCED_PARAMETER(SystemArgument2); // // Get the address of the queue index variable. // // N.B. If a fault occurs accessing queue index value, then the exception // handler is either executed or a bugcheck occurs. // ScanLast = (PULONG)DeferredContext; #if defined(_AMD64_) try { ScanIndex = *ScanLast; } except(KiKernelDpcFilter(Dpc, GetExceptionInformation())) { return; } #else UNREFERENCED_PARAMETER(Dpc); ScanIndex = *ScanLast; #endif // // Lock the dispatcher database, acquire the PRCB lock, and check if // there are any ready threads queued at the scanable priority levels. // Count = THREAD_READY_COUNT; Number = THREAD_SCAN_COUNT; Prcb = KiProcessorBlock[ScanIndex]; Index = Prcb->QueueIndex; WaitLimit = KiQueryLowTickCount() - READY_WITHOUT_RUNNING; KiLockDispatcherDatabase(&OldIrql); KiAcquirePrcbLock(Prcb); Summary = Prcb->ReadySummary & ((1 << THREAD_BOOST_PRIORITY) - 2); if (Summary != 0) { do { // // If the current ready queue index is beyond the end of the range // of priorities that are scanned, then wrap back to the beginning // priority. // if (Index > THREAD_SCAN_PRIORITY) { Index = 1; } // // If there are any ready threads queued at the current priority // level, then attempt to boost the thread priority. // if (Summary & PRIORITY_MASK(Index)) { ASSERT(IsListEmpty(&Prcb->DispatcherReadyListHead[Index]) == FALSE); Summary ^= PRIORITY_MASK(Index); ListHead = &Prcb->DispatcherReadyListHead[Index]; Entry = ListHead->Flink; do { // // If the thread has been waiting for an extended period, // then boost the priority of the selected. // Thread = CONTAINING_RECORD(Entry, KTHREAD, WaitListEntry); ASSERT(Thread->Priority == (KPRIORITY)Index); if (WaitLimit >= Thread->WaitTime) { // // Remove the thread from the respective ready queue. // Entry = Entry->Blink; ASSERT((Prcb->ReadySummary & PRIORITY_MASK(Index)) != 0); if (RemoveEntryList(Entry->Flink) != FALSE) { Prcb->ReadySummary ^= PRIORITY_MASK(Index); } // // Compute the priority decrement value, set the new // thread priority, set the thread quantum to a value // appropriate for lock ownership, and insert the // thread in the ready list. // ASSERT((Thread->PriorityDecrement >= 0) && (Thread->PriorityDecrement <= Thread->Priority)); Thread->PriorityDecrement += (THREAD_BOOST_PRIORITY - Thread->Priority); ASSERT((Thread->PriorityDecrement >= 0) && (Thread->PriorityDecrement <= THREAD_BOOST_PRIORITY)); Thread->Priority = THREAD_BOOST_PRIORITY; Thread->Quantum = LOCK_OWNERSHIP_QUANTUM; KiInsertDeferredReadyList(Thread); Count -= 1; } Entry = Entry->Flink; Number -= 1; } while ((Entry != ListHead) && (Number != 0) && (Count != 0)); } Index += 1; } while ((Summary != 0) && (Number != 0) && (Count != 0)); } // // Release the PRCB lock, unlock the dispatcher database, and save the // last ready queue index for the next scan. // KiReleasePrcbLock(Prcb); KiUnlockDispatcherDatabase(OldIrql); if ((Count != 0) && (Number != 0)) { Prcb->QueueIndex = 1; } else { Prcb->QueueIndex = Index; } // // Increment the processor number. // ScanIndex += 1; if (ScanIndex == (ULONG)KeNumberProcessors) { ScanIndex = 0; } *ScanLast = ScanIndex; return; }
更改后文本
打开文件
REACT OS VOID NTAPI KiScanReadyQueues(IN PKDPC Dpc, IN PVOID DeferredContext, IN PVOID SystemArgument1, IN PVOID SystemArgument2) { PULONG ScanLast = DeferredContext; ULONG ScanIndex = *ScanLast; ULONG Count = 10, Number = 16; PKPRCB Prcb = KiProcessorBlock[ScanIndex]; ULONG Index = Prcb->QueueIndex; ULONG WaitLimit = KeTickCount.LowPart - 300; ULONG Summary; KIRQL OldIrql; PLIST_ENTRY ListHead, NextEntry; PKTHREAD Thread; /* Lock the dispatcher and PRCB */ OldIrql = KiAcquireDispatcherLock(); KiAcquirePrcbLock(Prcb); /* Check if there's any thread that need help */ Summary = Prcb->ReadySummary & ((1 << THREAD_BOOST_PRIORITY) - 2); if (Summary) { /* Start scan loop */ do { /* Normalize the index */ if (Index > (THREAD_BOOST_PRIORITY - 1)) Index = 1; /* Loop for ready threads */ if (Summary & PRIORITY_MASK(Index)) { /* Sanity check */ ASSERT(!IsListEmpty(&Prcb->DispatcherReadyListHead[Index])); /* Update summary and select list */ Summary ^= PRIORITY_MASK(Index); ListHead = &Prcb->DispatcherReadyListHead[Index]; NextEntry = ListHead->Flink; do { /* Select a thread */ Thread = CONTAINING_RECORD(NextEntry, KTHREAD, WaitListEntry); ASSERT(Thread->Priority == Index); /* Check if the thread has been waiting too long */ if (WaitLimit >= Thread->WaitTime) { /* Remove the thread from the queue */ NextEntry = NextEntry->Blink; ASSERT((Prcb->ReadySummary & PRIORITY_MASK(Index))); if (RemoveEntryList(NextEntry->Flink)) { /* The list is empty now */ Prcb->ReadySummary ^= PRIORITY_MASK(Index); } /* Verify priority decrement and set the new one */ ASSERT((Thread->PriorityDecrement >= 0) && (Thread->PriorityDecrement <= Thread->Priority)); Thread->PriorityDecrement += (THREAD_BOOST_PRIORITY - Thread->Priority); ASSERT((Thread->PriorityDecrement >= 0) && (Thread->PriorityDecrement <= THREAD_BOOST_PRIORITY)); /* Update priority and insert into ready list */ Thread->Priority = THREAD_BOOST_PRIORITY; Thread->Quantum = WAIT_QUANTUM_DECREMENT * 4; KiInsertDeferredReadyList(Thread); Count --; } /* Go to the next entry */ NextEntry = NextEntry->Flink; Number--; } while((NextEntry != ListHead) && (Number) && (Count)); } /* Increase index */ Index++; } while ((Summary) && (Number) && (Count)); } /* Release the locks and dispatcher */ KiReleasePrcbLock(Prcb); KiReleaseDispatcherLock(OldIrql); /* Update the queue index for next time */ if ((Count) && (Number)) { /* Reset the queue at index 1 */ Prcb->QueueIndex = 1; } else { /* Set the index we're in now */ Prcb->QueueIndex = Index; } /* Increment the CPU number for next time and normalize to CPU count */ ScanIndex++; if (ScanIndex == KeNumberProcessors) ScanIndex = 0; /* Return the index */ *ScanLast = ScanIndex; }
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