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322 lines
7.4 KiB
322 lines
7.4 KiB
//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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// $NoKeywords: $
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//
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//=============================================================================//
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#ifndef P4PERFORMANCECOUNTERS_H
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#define P4PERFORMANCECOUNTERS_H
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#pragma once
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// Pentium 4 support
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/*
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http://developer.intel.com/design/Pentium4/documentation.htm
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IA-32 Intel Architecture Software Developer's Manual Volume 1: Basic Architecture
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IA-32 Intel Architecture Software Developer's Manual Volume 2A: Instruction Set Reference, A-M
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IA-32 Intel Architecture Software Developer's Manual Volume 2B: Instruction Set Reference, N-Z
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IA-32 Intel Architecture Software Developer's Manual Volume 3: System Programming Guide
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From Mikael Pettersson's perfctr:
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http://user.it.uu.se/~mikpe/linux/perfctr/
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* Known quirks:
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- OVF_PMI+FORCE_OVF counters must have an ireset value of -1.
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This allows the regular overflow check to also handle FORCE_OVF
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counters. Not having this restriction would lead to MAJOR
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complications in the driver's "detect overflow counters" code.
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There is no loss of functionality since the ireset value doesn't
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affect the counter's PMI rate for FORCE_OVF counters.
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- In experiments with FORCE_OVF counters, and regular OVF_PMI
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counters with small ireset values between -8 and -1, it appears
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that the faulting instruction is subjected to a new PMI before
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it can complete, ad infinitum. This occurs even though the driver
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clears the CCCR (and in testing also the ESCR) and invokes a
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user-space signal handler before restoring the CCCR and resuming
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the instruction.
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*/
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#define NCOUNTERS 18
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// The 18 counters
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enum Counters
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{
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MSR_BPU_COUNTER0,
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MSR_BPU_COUNTER1,
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MSR_BPU_COUNTER2,
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MSR_BPU_COUNTER3,
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MSR_MS_COUNTER0,
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MSR_MS_COUNTER1,
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MSR_MS_COUNTER2,
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MSR_MS_COUNTER3,
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MSR_FLAME_COUNTER0,
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MSR_FLAME_COUNTER1,
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MSR_FLAME_COUNTER2,
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MSR_FLAME_COUNTER3,
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MSR_IQ_COUNTER0,
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MSR_IQ_COUNTER1,
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MSR_IQ_COUNTER2,
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MSR_IQ_COUNTER3,
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MSR_IQ_COUNTER4,
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MSR_IQ_COUNTER5
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};
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// register base for counters
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#define MSR_COUNTER_BASE 0x300
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// register base for CCCR register
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#define MSR_CCCR_BASE 0x360
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#pragma pack(push, 1)
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// access to these bits is through the methods
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typedef union ESCR
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{
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struct
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{
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uint64 Reserved0_1 : 2; //
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uint64 USR : 1; //
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uint64 OS : 1; //
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uint64 TagEnable : 1; //
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uint64 TagValue : 4; //
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uint64 EventMask : 16; // from event select
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uint64 ESCREventSelect : 6; // 31:25 class of event
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uint64 Reserved31 : 1; //
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uint64 Reserved32_63 : 32; //
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};
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uint64 flat;
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} ESCR;
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typedef union CCCR
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{
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struct
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{
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uint64 Reserved0_11 : 12;// 0 -11
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uint64 Enable : 1; // 12
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uint64 CCCRSelect : 3; // 13-15
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uint64 Reserved16_17 : 2; // 16 17
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uint64 Compare : 1; // 18
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uint64 Complement : 1; // 19
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uint64 Threshold : 4; // 20-23
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uint64 Edge : 1; // 24
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uint64 FORCE_OVF : 1; // 25
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uint64 OVF_PMI : 1; // 26
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uint64 Reserved27_29 : 3; // 27-29
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uint64 Cascade : 1; // 30
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uint64 OVF : 1; // 31
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uint64 Reserved32_63 : 32; //
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};
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uint64 flat;
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} CCCR;
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#pragma pack(pop)
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extern const unsigned short cccr_escr_map[NCOUNTERS][8];
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enum P4TagState
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{
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TagDisable, //
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TagEnable, //
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};
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enum P4ForceOverflow
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{
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ForceOverflowDisable,
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ForceOverflowEnable,
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};
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enum P4OverflowInterrupt
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{
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OverflowInterruptDisable,
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OverflowInterruptEnable,
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};
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// Turn off the no return value warning in ReadCounter.
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#pragma warning( disable : 4035 )
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class P4BaseEvent
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{
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int m_counter;
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protected:
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void SetCounter(int counter)
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{
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m_counter = counter;
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cccrPort = MSR_CCCR_BASE + m_counter;
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counterPort = MSR_COUNTER_BASE + m_counter;
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escrPort = cccr_escr_map[m_counter][cccr.CCCRSelect];
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}
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public:
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unsigned short m_eventMask;
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const tchar *description;
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PME *pme;
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ESCR escr;
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CCCR cccr;
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int counterPort;
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int cccrPort;
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int escrPort;
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P4BaseEvent()
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{
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pme = PME::Instance();
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m_eventMask = 0;
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description = _T("");
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escr.flat = 0;
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cccr.flat = 0;
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cccr.Reserved16_17 = 3; // must be set
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escrPort = 0;
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m_counter = -1;
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}
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void StartCounter()
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{
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cccr.Enable = 1;
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pme->WriteMSR( cccrPort, cccr.flat );
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}
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void StopCounter()
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{
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cccr.Enable = 0;
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pme->WriteMSR( cccrPort, cccr.flat );
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}
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void ClearCounter()
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{
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pme->WriteMSR( counterPort, 0ui64 ); // clear
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}
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void WriteCounter( int64 value )
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{
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pme->WriteMSR( counterPort, value ); // clear
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}
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int64 ReadCounter()
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{
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#if PME_DEBUG
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if ( escr.USR == 0 && escr.OS == 0 )
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return -1; // no area to collect, use SetCaptureMode
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if ( escr.EventMask == 0 )
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return -2; // no event mask set
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if ( m_counter == -1 )
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return -3; // counter not legal
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#endif
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// ReadMSR should work here too, but RDPMC should be faster
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int64 value = 0;
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pme->ReadMSR( counterPort, &value );
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return value;
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#if 0
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// we need to copy this into a temp for some reason
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int temp = m_counter;
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_asm
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{
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mov ecx, temp
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RDPMC
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}
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#endif
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}
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void SetCaptureMode( PrivilegeCapture priv )
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{
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switch ( priv )
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{
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case OS_Only:
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{
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escr.USR = 0;
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escr.OS = 1;
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break;
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}
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case USR_Only:
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{
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escr.USR = 1;
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escr.OS = 0;
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break;
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}
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case OS_and_USR:
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{
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escr.USR = 1;
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escr.OS = 1;
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break;
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}
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}
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escr.EventMask = m_eventMask;
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pme->WriteMSR( escrPort, escr.flat );
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}
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void SetTagging( P4TagState tagEnable, uint8 tagValue )
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{
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escr.TagEnable = tagEnable;
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escr.TagValue = tagValue;
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pme->WriteMSR( escrPort, escr.flat );
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}
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void SetFiltering( CompareState compareEnable, CompareMethod compareMethod, uint8 threshold, EdgeState edgeEnable )
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{
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cccr.Compare = compareEnable;
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cccr.Complement = compareMethod;
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cccr.Threshold = threshold;
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cccr.Edge = edgeEnable;
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pme->WriteMSR( cccrPort, cccr.flat );
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}
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void SetOverflowEnables( P4ForceOverflow overflowEnable, P4OverflowInterrupt overflowInterruptEnable )
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{
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cccr.FORCE_OVF = overflowEnable;
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cccr.OVF_PMI = overflowInterruptEnable;
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pme->WriteMSR( cccrPort, cccr.flat );
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}
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void SetOverflow()
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{
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cccr.OVF = 1;
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pme->WriteMSR( cccrPort, cccr.flat );
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}
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void ClearOverflow()
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{
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cccr.OVF = 0;
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pme->WriteMSR( cccrPort, cccr.flat );
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}
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bool isOverflow()
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{
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CCCR cccr_temp;
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pme->ReadMSR( cccrPort, &cccr_temp.flat );
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return cccr_temp.OVF;
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}
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void SetCascade()
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{
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cccr.Cascade = 1;
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pme->WriteMSR( cccrPort, cccr.flat );
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}
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void ClearCascade()
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{
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cccr.Cascade = 0;
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pme->WriteMSR( cccrPort, cccr.flat );
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}
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};
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#pragma warning( default : 4035 )
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#include "eventmasks.h"
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#include "eventmodes.h"
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#endif // P4PERFORMANCECOUNTERS_H
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