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windows-nt/Source/XPSP1/NT/base/hals/processor/crusoe/longrun.c

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2020-09-26 03:20:57 -05:00
/*++
Copyright (c) 2000 Microsoft Corporation
Module Name:
longrun.c
Abstract:
This module implements the Crusoe LongRun Adaptive Power Control interface
Author:
Todd Carpenter (10/31/00) - create file
Environment:
Kernel mode
Notes:
Revision History:
--*/
#include <ntddk.h>
#include <ntacpi.h>
#include "crusoe.h"
LONGRUN_STATES LongRunStates;
#ifdef ALLOC_PRAGMA
#pragma alloc_text (PAGE, InitializeLegacyInterface)
#pragma alloc_text (PAGE, GetCurrentCpuSpeed)
#pragma alloc_text (PAGE, GetMaxCpuSpeed)
#endif
NTSTATUS
InitializeLegacyInterface(
IN PFDO_DATA DeviceExtension
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS status = STATUS_SUCCESS;
ULONG flags;
DebugEnter();
PAGED_CODE();
//
// Check Processor Feature Flags
//
GetProcessorFeatureFlags(&flags);
if (flags & FEATURE_LONGRUN_ENALBED) {
//
// If the CMS4.2 Interface is present use it, else use CMS4.1
//
if (flags & FEATURE_LRTI_ENABLED) {
DebugPrint((ERROR, "Using LongRun CMS 4.2 Interface\n"));
BuildLongRunPerfStatesCMS42(&DeviceExtension->PssPackage);
} else {
DebugPrint((ERROR, "Using LongRun CMS 4.1 Interface\n"));
BuildLongRunPerfStatesCMS41(&DeviceExtension->PssPackage);
}
DeviceExtension->PctPackage.Control.AddressSpaceID = AcpiGenericSpaceFixedFunction;
DeviceExtension->PctPackage.Status.AddressSpaceID = AcpiGenericSpaceFixedFunction;
//
// Walk through _PSS states to calculate latency values
//
ValidatePssLatencyValues(DeviceExtension);
} else {
//
// LongRun Interface is not present
//
DebugAssert(!"LongRun Interface is NOT enabled!\n");
status = STATUS_UNSUCCESSFUL;
}
DebugExitStatus(status)
return status;
}
NTSTATUS
SetCurrentStateMSR(
IN ULONG State,
IN BOOLEAN InitPhase
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULONG index, longRunMax, longRunMin = 0;
NTSTATUS status = STATUS_SUCCESS;
ULARGE_INTEGER longRunStatus;
//
// Convert our Perf State Value to LongRun value.
// NOTE: LongRun states are stored in Ascending order.
//
index = (LongRunStates.MaxState - 1) - State;
longRunMax = LongRunStates.States[index].LongRunValue;
if (InitPhase) {
longRunMin = longRunMax;
}
DebugPrint((ERROR, "Setting Long Run Range: l=0x%x, u=0x%x\n", longRunMin, longRunMax));
SetCurrentPerformanceRange(longRunMin, longRunMax);
longRunStatus.QuadPart = GetCurrentPerformanceRange();
if ((longRunStatus.HighPart != longRunMax) ||
(longRunStatus.LowPart != longRunMin)) {
DebugPrint((ERROR, "ERROR! Expected: l=0x%x, h=0x%x Recieved: l=0x%x, h=0x%x\n",
longRunMin,
longRunMax,
longRunStatus.LowPart,
longRunStatus.HighPart));
status = STATUS_UNSUCCESSFUL;
}
return status;
}
ULONG
ConvertLongRunValueToPerfState(
IN PLONGRUN_STATES PerfStates,
IN ULONG LongRunValue
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULONG x;
//
// Convert Transemta state values in Perf state values.
//
for (x = 0; x < PerfStates->MaxState; x++) {
if (PerfStates->States[x].LongRunValue == LongRunValue) {
return x;
}
}
return INVALID_LONGRUN_STATE;
}
NTSTATUS
GetCurrentCpuSpeed(
OUT PULONG CpuSpeed
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS status;
STATE_INFO stateInfo;
DebugAssert(CpuSpeed);
status = GetCurrentStateInfo(&stateInfo);
if (NT_SUCCESS(status)) {
*CpuSpeed = stateInfo.CpuSpeed;
}
return status;
}
NTSTATUS
GetMaxCpuSpeed(
OUT PULONG CpuSpeed
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULONG junk;
DebugAssert(CpuSpeed);
PAGED_CODE();
CPUID(LONGRUN_CPUID_PROCESSOR_INFO,
&junk,
&junk,
CpuSpeed,
&junk);
return STATUS_SUCCESS;
}
VOID
GetProcessorFeatureFlags(
OUT PULONG Flags
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULONG junk;
DebugAssert(Flags);
PAGED_CODE();
CPUID(LONGRUN_CPUID_PROCESSOR_INFO,
&junk,
&junk,
&junk,
Flags);
}
NTSTATUS
GetCurrentStateInfo(
OUT PSTATE_INFO StateInfo
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULONG junk;
DebugAssert(StateInfo);
CPUID(LONGRUN_CPUID_GETSTATE,
&StateInfo->CpuSpeed,
&StateInfo->Voltage,
&StateInfo->LongRunValue,
&junk);
return STATUS_SUCCESS;
}
ULONGLONG
GetCurrentPerformanceRange(
VOID
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
return ReadMSR(LONGRUN_CONTROL_STATUS_MSR);
}
VOID
SetCurrentPerformanceRange(
IN ULONG Min,
IN ULONG Max
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULARGE_INTEGER msrInfo;
msrInfo.LowPart = Min;
msrInfo.HighPart = Max;
WriteMSR(LONGRUN_CONTROL_STATUS_MSR, msrInfo.QuadPart);
}
NTSTATUS
CalculateLongRunPerfStates(
IN PLONGRUN_STATES PerfStates
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
STATE_INFO stateInfo;
ULONG x, currentPerfState = 0;
ULONG currentLongRunValue = INVALID_LONGRUN_STATE;
DebugAssert(PerfStates);
PerfStates->MaxState = MAX_LONGRUN_STATES;
//
// step through each state from 0 - 100, recording
// unique performance states
//
for (x = 0; x <= MAX_LONGRUN_VALUE; x++) {
//DebugPrint((ERROR, "Transition to state %u\n", x));
SetCurrentPerformanceRange(x, x);
GetCurrentStateInfo(&stateInfo);
//DisplayStateInfo(&stateInfo);
//
// If this is a new state, record it.
//
// NOTE: we are ASSUMING that all states with identical LongRun
// state values are contigous AND that the LongRun values
// are increasing in value. Here is an example of what we
// expect to find.
//
// LongRun States (0-100) unique LongRun value
//
// 0-25 0
// 26-50 40
// 51-75 71
// 76-100 100
//
if (stateInfo.LongRunValue != currentLongRunValue) {
DebugAssert(currentPerfState < PerfStates->MaxState);
DebugAssert(stateInfo.LongRunValue <= MAX_LONGRUN_VALUE);
currentLongRunValue = stateInfo.LongRunValue;
RtlCopyMemory(&PerfStates->States[currentPerfState++],
&stateInfo,
sizeof(STATE_INFO));
}
}
return STATUS_SUCCESS;
}
NTSTATUS
BuildAcpi2PerformanceStates(
IN PACPI_PSS_PACKAGE PerfStates
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
return STATUS_SUCCESS;
}
NTSTATUS
BuildLongRunPerfStatesCMS41(
OUT PACPI_PSS_PACKAGE *PssPackage
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULONG x;
ULONG pssSize;
ULONG currentPerfState = 0;
ULONG currentLongRunValue = INVALID_LONGRUN_STATE;
NTSTATUS status = STATUS_SUCCESS;
STATE_INFO stateInfo;
PACPI_PSS_PACKAGE tmpPss;
DebugEnter();
DebugAssert(PssPackage);
pssSize = sizeof(ACPI_PSS_PACKAGE) +
((MAX_LONGRUN_STATES-1) * sizeof(ACPI_PSS_DESCRIPTOR));
tmpPss = ExAllocatePoolWithTag(NonPagedPool,
pssSize,
PROCESSOR_POOL_TAG);
if (!tmpPss) {
status = STATUS_INSUFFICIENT_RESOURCES;
goto BuildLongRunPerfStatesCMS41Exit;
}
//
// Iterate through each level collecting data.
//
tmpPss->NumPStates = MAX_LONGRUN_STATES;
for (x = 0; x <= MAX_LONGRUN_VALUE; x += 5) {
SetCurrentPerformanceRange(x, x);
GetCurrentStateInfo(&stateInfo);
//
// If this is a new state, record it.
//
// NOTE: we are ASSUMING that all states with identical LongRun
// state values are contigous AND that the LongRun values
// are increasing in value. Here is an example of what we
// expect to find.
//
// LongRun States (0-100) unique LongRun value
//
// 0-25 0
// 26-50 40
// 51-75 71
// 76-100 100
//
if (stateInfo.LongRunValue != currentLongRunValue) {
PACPI_PSS_DESCRIPTOR state;
CRUSOE_PSS_VALUE longRunState = {0};
DebugAssert(currentPerfState < MAX_LONGRUN_STATES);
DebugAssert(stateInfo.LongRunValue <= MAX_LONGRUN_VALUE);
state = &tmpPss->State[(MAX_LONGRUN_STATES-1) - currentPerfState];
state->CoreFrequency = stateInfo.CpuSpeed;
DebugAssert(stateInfo.Voltage < MAXUSHORT);
state->Power = stateInfo.Voltage;
state->Latency = CRUSOE_TRANSITION_LATENCY;
longRunState.Max = stateInfo.LongRunValue;
state->Control = longRunState.AsDWord;
state->Status = longRunState.AsDWord;
state->BmLatency = 0;
//
// If we have found all of the states, bail
//
if (currentPerfState == (MAX_LONGRUN_STATES-1)) {
break;
} else {
currentLongRunValue = stateInfo.LongRunValue;
currentPerfState++;
}
}
}
*PssPackage = tmpPss;
BuildLongRunPerfStatesCMS41Exit:
DebugExitStatus(status);
return status;
}
NTSTATUS
BuildLongRunPerfStatesCMS42(
OUT PACPI_PSS_PACKAGE *PssPackage
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULONG maxLevel;
ULONG pssSize;
ULONG x;
NTSTATUS status = STATUS_SUCCESS;
PACPI_PSS_PACKAGE tmpPss;
DebugEnter();
DebugAssert(PssPackage);
//
// Get max LongRun Level
//
maxLevel = LRTI_GetMaxSupportedLevel();
pssSize = sizeof(ACPI_PSS_PACKAGE) + (maxLevel * sizeof(ACPI_PSS_DESCRIPTOR));
tmpPss = ExAllocatePoolWithTag(NonPagedPool,
pssSize,
PROCESSOR_POOL_TAG);
if (!tmpPss) {
status = STATUS_INSUFFICIENT_RESOURCES;
goto BuildLongRunPerfStatesCMS42Exit;
}
//
// Iterate through each level collecting data.
//
DebugAssert(maxLevel < MAXUCHAR);
tmpPss->NumPStates = (UCHAR) maxLevel+1;
for (x=0; x <= maxLevel; x++) {
PACPI_PSS_DESCRIPTOR state = &tmpPss->State[x];
CRUSOE_PSS_VALUE longRunState;
ULONG voltage;
LRTI_SetCurrentLevel(x);
state->CoreFrequency = LRTI_GetFrequency();
voltage = LRTI_GetVoltage();
DebugAssert(voltage < MAXUSHORT);
state->Power = voltage;
state->Latency = CRUSOE_TRANSITION_LATENCY;
longRunState.Max = LRTI_GetPerformanceIndex();
longRunState.Min = 0;
state->Control = longRunState.AsDWord;
state->Status = longRunState.AsDWord;
state->BmLatency = 0;
}
*PssPackage = tmpPss;
BuildLongRunPerfStatesCMS42Exit:
DebugExitStatus(status);
return status;
}
ULONG
LRTI_GetMaxSupportedLevel(
VOID
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULARGE_INTEGER results;
results.QuadPart = ReadMSR(LONGRUN_TI_READOUT_MSR);
return results.HighPart;
}
VOID
LRTI_SetCurrentLevel (
ULONG LongRunLevel
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULARGE_INTEGER msr;
msr.LowPart = LongRunLevel;
msr.HighPart = 0;
WriteMSR(LONGRUN_TI_READOUT_MSR, msr.QuadPart);
}
ULONG
LRTI_GetPerformanceIndex (
VOID
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULARGE_INTEGER msr;
msr.QuadPart = ReadMSR(LONGRUN_TI_PERFORMANCE_INDEX_MSR);
return msr.LowPart;
}
ULONG
LRTI_GetVoltage (
VOID
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULARGE_INTEGER msr;
msr.QuadPart = ReadMSR(LONGRUN_TI_VOLTAGE_FREQUENCY_MSR);
return msr.HighPart;
}
ULONG
LRTI_GetFrequency (
VOID
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULARGE_INTEGER msr;
msr.QuadPart = ReadMSR(LONGRUN_TI_VOLTAGE_FREQUENCY_MSR);
return msr.LowPart;
}
ULONG
GetLongRunFlagsRegister (
VOID
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULARGE_INTEGER msr;
msr.QuadPart = ReadMSR(LONGRUN_FLAGS_REGISTER_MSR);
return msr.LowPart;
}
VOID
SetLongRunEconomyMode (
VOID
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULARGE_INTEGER msr = {0};
WriteMSR(LONGRUN_FLAGS_REGISTER_MSR, msr.QuadPart);
}
VOID
SetLongRunPerformanceMode (
VOID
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
ULARGE_INTEGER msr = {0};
msr.LowPart |= 0x1;
WriteMSR(LONGRUN_FLAGS_REGISTER_MSR, msr.QuadPart);
}
#if DBG
VOID
DisplayStateInfo(
IN PSTATE_INFO State
)
{
DebugPrint((MAXTRACE, "State Info:\n"));
DebugPrint((MAXTRACE, " Processor Clock Frequency: %u Mhz\n", State->CpuSpeed));
DebugPrint((MAXTRACE, " Processor Core Voltage: %u millivolts\n", State->Voltage));
DebugPrint((MAXTRACE, " LongRun Value [0-100]: %u\n", State->LongRunValue));
DebugPrint((MAXTRACE, " Performance State: %u\n", ConvertLongRunValueToPerfState(
&LongRunStates,
State->LongRunValue)));
DebugPrint((MAXTRACE, "\n"));
}
VOID
DisplayLongRunStates(
IN PLONGRUN_STATES States
)
{
ULONG x;
DebugPrint((MAXTRACE, "LongRun Performance Levels:\n"));
for (x = 0; x < States->MaxState; x++) {
DebugPrint((ERROR, "State %u:\n", x));
DisplayStateInfo(&States->States[x]);
}
}
#endif
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