vbox-cpuhotplug.dsl revision 4db9c6622b35a80cd7259dbf5359e5616fac0b1b
// $Id$
/// @file
//
// VirtualBox ACPI
//
// Copyright (C) 2006-2007 Sun Microsystems, Inc.
//
// This file is part of VirtualBox Open Source Edition (OSE), as
// available from http://www.virtualbox.org. This file is free software;
// you can redistribute it and/or modify it under the terms of the GNU
// General Public License (GPL) as published by the Free Software
// Foundation, in version 2 as it comes in the "COPYING" file of the
// VirtualBox OSE distribution. VirtualBox OSE is distributed in the
// hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
//
// Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa
// Clara, CA 95054 USA or visit http://www.sun.com if you need
// additional information or have any questions.
DefinitionBlock ("DSDT.aml", "DSDT", 1, "VBOX ", "VBOXBIOS", 2)
{
// Declare debugging ports withing SystemIO
OperationRegion(DBG0, SystemIO, 0x3000, 4)
// Writes to this field Will dump hex char
Field (DBG0, ByteAcc, NoLock, Preserve)
{
DHE1, 8,
}
// Writes to this field Will dump hex word
Field (DBG0, WordAcc, NoLock, Preserve)
{
DHE2, 16,
}
// Writes to this field Will dump hex double word
Field (DBG0, DWordAcc, NoLock, Preserve)
{
DHE4, 32,
}
// Writes to this field will dump ascii char
Field (DBG0, ByteAcc, NoLock, Preserve)
{
Offset (1),
DCHR, 8
}
// Shortcuts
Method(HEX, 1)
{
Store (Arg0, DHE1)
}
Method(HEX2, 1)
{
Store (Arg0, DHE2)
}
Method(HEX4, 1)
{
Store (Arg0, DHE4)
}
// Code from Microsoft sample
// http://www.microsoft.com/whdc/system/pnppwr/powermgmt/_OSI-method.mspx
//
// SLEN(Str) - Returns the length of Str (excluding NULL).
//
Method(SLEN, 1)
{
//
// Note: The caller must make sure that the argument is a string object.
//
Store(Arg0, Local0)
Return(Sizeof(Local0))
}
Method(S2BF, 1)
{
//
// Note: The caller must make sure that the argument is a string object.
//
// Local0 contains length of string + NULL.
//
Store(Arg0, Local0)
Add(SLEN(Local0), One, Local0)
//
// Convert the string object into a buffer object.
//
Name(BUFF, Buffer(Local0) {})
Store(Arg0, BUFF)
Return(BUFF)
}
// Convert ASCII string to buffer and store it's contents (char by
// char) into DCHR (thus possibly writing the string to console)
Method (\DBG, 1, NotSerialized)
{
Store(Arg0, Local0)
Store(S2BF (Local0), Local1)
Store(SizeOf (Local1), Local0)
Decrement (Local0)
Store(Zero, Local2)
While (Local0)
{
Decrement (Local0)
Store (DerefOf (Index (Local1, Local2)), DCHR)
Increment (Local2)
}
}
Name(PICM, 0)
Method(_PIC, 1)
{
DBG ("Pic mode: ")
HEX4 (Arg0)
Store (Arg0, PICM)
}
// Method to check for the CPU status
Method(CPCK, 1)
{
Store (Arg0, \_SB.CPUC)
Return(\_SB.CPUL)
}
// Processor object
// #1463: Showing the CPU can make the guest do bad things on it like SpeedStep.
// In this case, XP SP2 contains this buggy Intelppm.sys driver which wants to mess
// with SpeedStep if it finds a CPU object and when it finds out that it can't, it
// tries to unload and crashes (MS probably never tested this code path).
// So we enable this ACPI object only for certain guests, which do need it,
// if by accident Windows guest seen enabled CPU object, just boot from latest
// known good configuration, as it remembers state, even if ACPI object gets disabled.
Scope (\_PR)
{
Processor (CPU0, /* Name */
0x00, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
}
Device(HPL) // Needed or Linux can't find the CPU after insertion if it was ejected before.
{
Processor (CPU1, /* Name */
0x01, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MAL1)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x01))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x2, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPU2, /* Name */
0x02, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MAL2)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x02))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x4, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPU3, /* Name */
0x03, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MAL3)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x03))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x8, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPU4, /* Name */
0x04, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MAL4)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x04))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x10, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPU5, /* Name */
0x05, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MAL5)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x05))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x20, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPU6, /* Name */
0x06, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MAL6)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x06))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x40, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPU7, /* Name */
0x07, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MAL7)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x07))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x80, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPU8, /* Name */
0x08, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MAL8)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x08))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x100, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPU9, /* Name */
0x09, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MAL9)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x09))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x200, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUA, /* Name */
0x0a, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALA)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x0a))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x400, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUB, /* Name */
0x0b, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALB)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x0b))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x800, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUC, /* Name */
0x0c, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALC)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x0c))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x1000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUD, /* Name */
0x0d, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALD)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x0d))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x2000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUE, /* Name */
0x0e, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALE)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x0e))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x4000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUF, /* Name */
0x0f, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALF)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x0f))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x8000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUG, /* Name */
0x10, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALG)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x10))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x10000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUH, /* Name */
0x11, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALH)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x11))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x20000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUI, /* Name */
0x12, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALI)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x12))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x40000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUJ, /* Name */
0x13, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALJ)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x13))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x80000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUK, /* Name */
0x14, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALK)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x14))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x100000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUL, /* Name */
0x15, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALL)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x15))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x200000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUM, /* Name */
0x16, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALM)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x16))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x400000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUN, /* Name */
0x17, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALN)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x17))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x800000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUO, /* Name */
0x18, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALO)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x18))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x1000000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUP, /* Name */
0x19, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALP)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x19))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x2000000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUQ, /* Name */
0x1a, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALQ)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x1a))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x4000000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUR, /* Name */
0x1b, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALR)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x1b))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x8000000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUS, /* Name */
0x1c, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALS)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x1c))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x10000000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUT, /* Name */
0x1d, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALT)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x1d))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x20000000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUU, /* Name */
0x1e, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALU)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x1e))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x40000000, \_SB.CPUL) // Unlock the CPU
Return
}
}
Processor (CPUV, /* Name */
0x1f, /* Id */
0x0, /* Processor IO ports range start */
0x0 /* Processor IO ports range length */
)
{
Method(_MAT, 0) {
Return(\_SB.MALV)
}
Method(_STA) // Used for device presence detection
{
IF (CPCK(0x1f))
{
Return (0xF)
}
Else
{
Return (0x1) // Present but not enabled
}
}
Method(_EJ0, 1)
{
Store(0x80000000, \_SB.CPUL) // Unlock the CPU
Return
}
}
}
}
Scope (\_GPE)
{
// GPE bit 1 handler
// GPE.1 must be set and SCI raised when
// processor info changed and CPU1 must be
// re-evaluated
Method (_L01, 0, NotSerialized)
{
// Eject notifications from ACPI are not supported so far by any guest
//IF (And(\_SB.CPUD, 0x2))
//{
// Notify(\_PR.HPL.CPU1, 0x3)
//}
IF (CPCK(0x01))
{
Notify (\_PR.HPL.CPU1, 0x0)
}
IF (CPCK(0x02))
{
Notify (\_PR.HPL.CPU2, 0x0)
}
IF (CPCK(0x03))
{
Notify (\_PR.HPL.CPU3, 0x0)
}
IF (CPCK(0x04))
{
Notify (\_PR.HPL.CPU4, 0x0)
}
IF (CPCK(0x05))
{
Notify (\_PR.HPL.CPU5, 0x0)
}
IF (CPCK(0x06))
{
Notify (\_PR.HPL.CPU6, 0x0)
}
IF (CPCK(0x07))
{
Notify (\_PR.HPL.CPU7, 0x0)
}
IF (CPCK(0x08))
{
Notify (\_PR.HPL.CPU8, 0x0)
}
IF (CPCK(0x09))
{
Notify (\_PR.HPL.CPU9, 0x0)
}
IF (CPCK(0x0a))
{
Notify (\_PR.HPL.CPUA, 0x0)
}
IF (CPCK(0x0b))
{
Notify (\_PR.HPL.CPUB, 0x0)
}
IF (CPCK(0x0c))
{
Notify (\_PR.HPL.CPUC, 0x0)
}
IF (CPCK(0x0d))
{
Notify (\_PR.HPL.CPUD, 0x0)
}
IF (CPCK(0x0e))
{
Notify (\_PR.HPL.CPUE, 0x0)
}
IF (CPCK(0x0f))
{
Notify (\_PR.HPL.CPUF, 0x0)
}
IF (CPCK(0x10))
{
Notify (\_PR.HPL.CPUG, 0x0)
}
IF (CPCK(0x11))
{
Notify (\_PR.HPL.CPUH, 0x0)
}
IF (CPCK(0x12))
{
Notify (\_PR.HPL.CPUI, 0x0)
}
IF (CPCK(0x13))
{
Notify (\_PR.HPL.CPUJ, 0x0)
}
IF (CPCK(0x14))
{
Notify (\_PR.HPL.CPUK, 0x0)
}
IF (CPCK(0x15))
{
Notify (\_PR.HPL.CPUL, 0x0)
}
IF (CPCK(0x16))
{
Notify (\_PR.HPL.CPUM, 0x0)
}
IF (CPCK(0x17))
{
Notify (\_PR.HPL.CPUN, 0x0)
}
IF (CPCK(0x18))
{
Notify (\_PR.HPL.CPUO, 0x0)
}
IF (CPCK(0x19))
{
Notify (\_PR.HPL.CPUP, 0x0)
}
IF (CPCK(0x1a))
{
Notify (\_PR.HPL.CPUQ, 0x0)
}
IF (CPCK(0x1b))
{
Notify (\_PR.HPL.CPUR, 0x0)
}
IF (CPCK(0x1c))
{
Notify (\_PR.HPL.CPUS, 0x0)
}
IF (CPCK(0x1d))
{
Notify (\_PR.HPL.CPUT, 0x0)
}
IF (CPCK(0x1e))
{
Notify (\_PR.HPL.CPUU, 0x0)
}
IF (CPCK(0x1f))
{
Notify (\_PR.HPL.CPUV, 0x0)
}
}
}
Scope (\_SB)
{
OperationRegion (SYSI, SystemIO, 0x4048, 0x08)
Field (SYSI, DwordAcc, NoLock, Preserve)
{
IDX0, 32,
DAT0, 32,
}
IndexField (IDX0, DAT0, DwordAcc, NoLock, Preserve)
{
MEML, 32,
UIOA, 32,
UHPT, 32,
USMC, 32,
UFDC, 32,
// @todo: maybe make it bitmask instead?
UCP0, 32,
UCP1, 32,
UCP2, 32,
UCP3, 32,
MEMH, 32,
URTC, 32,
CPUL, 32,
CPUC, 32,
MAAD, 32,
MASZ, 32,
Offset (0x80),
ININ, 32,
Offset (0x200),
VAIN, 32,
}
OperationRegion(MABL, SystemMemory, MAAD, MASZ)
Field (MABL, ByteAcc, NoLock, Preserve)
{
MUDA, 288,
MUDD, 32,
MUDF, 32,
MAL0, 64,
MAL1, 64,
MAL2, 64,
MAL3, 64,
MAL4, 64,
MAL5, 64,
MAL6, 64,
MAL7, 64,
MAL8, 64,
MAL9, 64,
MALA, 64,
MALB, 64,
MALC, 64,
MALD, 64,
MALE, 64,
MALF, 64,
MALG, 64,
MALH, 64,
MALI, 64,
MALJ, 64,
MALK, 64,
MALL, 64,
MALM, 64,
MALN, 64,
MALO, 64,
MALP, 64,
MALQ, 64,
MALR, 64,
MALS, 64,
MALT, 64,
MALU, 64,
MALV, 64,
}
Method (_INI, 0, NotSerialized)
{
Store (0xbadc0de, VAIN)
DBG ("MEML: ")
HEX4 (MEML)
DBG ("UIOA: ")
HEX4 (UIOA)
DBG ("UHPT: ")
HEX4 (UHPT)
DBG ("USMC: ")
HEX4 (USMC)
DBG ("UFDC: ")
HEX4 (UFDC)
DBG ("UCP0: ")
HEX4 (UCP0)
DBG ("MEMH: ")
HEX4 (MEMH)
}
// PCI PIC IRQ Routing table
// Must match pci.c:pci_slot_get_pirq
Name (PR00, Package ()
{
Package (0x04) {0x0002FFFF, 0x00, LNKB, 0x00,},
Package (0x04) {0x0002FFFF, 0x01, LNKC, 0x00,},
Package (0x04) {0x0002FFFF, 0x02, LNKD, 0x00,},
Package (0x04) {0x0002FFFF, 0x03, LNKA, 0x00,},
Package (0x04) {0x0003FFFF, 0x00, LNKC, 0x00,},
Package (0x04) {0x0003FFFF, 0x01, LNKD, 0x00,},
Package (0x04) {0x0003FFFF, 0x02, LNKA, 0x00,},
Package (0x04) {0x0003FFFF, 0x03, LNKB, 0x00,},
Package (0x04) {0x0004FFFF, 0x00, LNKD, 0x00,},
Package (0x04) {0x0004FFFF, 0x01, LNKA, 0x00,},
Package (0x04) {0x0004FFFF, 0x02, LNKB, 0x00,},
Package (0x04) {0x0004FFFF, 0x03, LNKC, 0x00,},
Package (0x04) {0x0005FFFF, 0x00, LNKA, 0x00,},
Package (0x04) {0x0005FFFF, 0x01, LNKB, 0x00,},
Package (0x04) {0x0005FFFF, 0x02, LNKC, 0x00,},
Package (0x04) {0x0005FFFF, 0x03, LNKD, 0x00,},
Package (0x04) {0x0006FFFF, 0x00, LNKB, 0x00,},
Package (0x04) {0x0006FFFF, 0x01, LNKC, 0x00,},
Package (0x04) {0x0006FFFF, 0x02, LNKD, 0x00,},
Package (0x04) {0x0006FFFF, 0x03, LNKA, 0x00,},
Package (0x04) {0x0007FFFF, 0x00, LNKC, 0x00,},
Package (0x04) {0x0007FFFF, 0x01, LNKD, 0x00,},
Package (0x04) {0x0007FFFF, 0x02, LNKA, 0x00,},
Package (0x04) {0x0007FFFF, 0x03, LNKB, 0x00,},
Package (0x04) {0x0008FFFF, 0x00, LNKD, 0x00,},
Package (0x04) {0x0008FFFF, 0x01, LNKA, 0x00,},
Package (0x04) {0x0008FFFF, 0x02, LNKB, 0x00,},
Package (0x04) {0x0008FFFF, 0x03, LNKC, 0x00,},
Package (0x04) {0x0009FFFF, 0x00, LNKA, 0x00,},
Package (0x04) {0x0009FFFF, 0x01, LNKB, 0x00,},
Package (0x04) {0x0009FFFF, 0x02, LNKC, 0x00,},
Package (0x04) {0x0009FFFF, 0x03, LNKD, 0x00,},
Package (0x04) {0x000AFFFF, 0x00, LNKB, 0x00,},
Package (0x04) {0x000AFFFF, 0x01, LNKC, 0x00,},
Package (0x04) {0x000AFFFF, 0x02, LNKD, 0x00,},
Package (0x04) {0x000AFFFF, 0x03, LNKA, 0x00,},
Package (0x04) {0x000BFFFF, 0x00, LNKC, 0x00,},
Package (0x04) {0x000BFFFF, 0x01, LNKD, 0x00,},
Package (0x04) {0x000BFFFF, 0x02, LNKA, 0x00,},
Package (0x04) {0x000BFFFF, 0x03, LNKB, 0x00,},
Package (0x04) {0x000CFFFF, 0x00, LNKD, 0x00,},
Package (0x04) {0x000CFFFF, 0x01, LNKA, 0x00,},
Package (0x04) {0x000CFFFF, 0x02, LNKB, 0x00,},
Package (0x04) {0x000CFFFF, 0x03, LNKC, 0x00,},
Package (0x04) {0x000DFFFF, 0x00, LNKA, 0x00,},
Package (0x04) {0x000DFFFF, 0x01, LNKB, 0x00,},
Package (0x04) {0x000DFFFF, 0x02, LNKC, 0x00,},
Package (0x04) {0x000DFFFF, 0x03, LNKD, 0x00,},
Package (0x04) {0x000EFFFF, 0x00, LNKB, 0x00,},
Package (0x04) {0x000EFFFF, 0x01, LNKC, 0x00,},
Package (0x04) {0x000EFFFF, 0x02, LNKD, 0x00,},
Package (0x04) {0x000EFFFF, 0x03, LNKA, 0x00,},
Package (0x04) {0x000FFFFF, 0x00, LNKC, 0x00,},
Package (0x04) {0x000FFFFF, 0x01, LNKD, 0x00,},
Package (0x04) {0x000FFFFF, 0x02, LNKA, 0x00,},
Package (0x04) {0x000FFFFF, 0x03, LNKB, 0x00,},
Package (0x04) {0x0010FFFF, 0x00, LNKD, 0x00,},
Package (0x04) {0x0010FFFF, 0x01, LNKA, 0x00,},
Package (0x04) {0x0010FFFF, 0x02, LNKB, 0x00,},
Package (0x04) {0x0010FFFF, 0x03, LNKC, 0x00,},
Package (0x04) {0x0011FFFF, 0x00, LNKA, 0x00,},
Package (0x04) {0x0011FFFF, 0x01, LNKB, 0x00,},
Package (0x04) {0x0011FFFF, 0x02, LNKC, 0x00,},
Package (0x04) {0x0011FFFF, 0x03, LNKD, 0x00,},
Package (0x04) {0x0012FFFF, 0x00, LNKB, 0x00,},
Package (0x04) {0x0012FFFF, 0x01, LNKC, 0x00,},
Package (0x04) {0x0012FFFF, 0x02, LNKD, 0x00,},
Package (0x04) {0x0012FFFF, 0x03, LNKA, 0x00,},
Package (0x04) {0x0013FFFF, 0x00, LNKC, 0x00,},
Package (0x04) {0x0013FFFF, 0x01, LNKD, 0x00,},
Package (0x04) {0x0013FFFF, 0x02, LNKA, 0x00,},
Package (0x04) {0x0013FFFF, 0x03, LNKB, 0x00,},
Package (0x04) {0x0014FFFF, 0x00, LNKD, 0x00,},
Package (0x04) {0x0014FFFF, 0x01, LNKA, 0x00,},
Package (0x04) {0x0014FFFF, 0x02, LNKB, 0x00,},
Package (0x04) {0x0014FFFF, 0x03, LNKC, 0x00,},
Package (0x04) {0x0015FFFF, 0x00, LNKA, 0x00,},
Package (0x04) {0x0015FFFF, 0x01, LNKB, 0x00,},
Package (0x04) {0x0015FFFF, 0x02, LNKC, 0x00,},
Package (0x04) {0x0015FFFF, 0x03, LNKD, 0x00,},
Package (0x04) {0x0016FFFF, 0x00, LNKB, 0x00,},
Package (0x04) {0x0016FFFF, 0x01, LNKC, 0x00,},
Package (0x04) {0x0016FFFF, 0x02, LNKD, 0x00,},
Package (0x04) {0x0016FFFF, 0x03, LNKA, 0x00,},
Package (0x04) {0x0017FFFF, 0x00, LNKC, 0x00,},
Package (0x04) {0x0017FFFF, 0x01, LNKD, 0x00,},
Package (0x04) {0x0017FFFF, 0x02, LNKA, 0x00,},
Package (0x04) {0x0017FFFF, 0x03, LNKB, 0x00,},
Package (0x04) {0x0018FFFF, 0x00, LNKD, 0x00,},
Package (0x04) {0x0018FFFF, 0x01, LNKA, 0x00,},
Package (0x04) {0x0018FFFF, 0x02, LNKB, 0x00,},
Package (0x04) {0x0018FFFF, 0x03, LNKC, 0x00,},
Package (0x04) {0x0019FFFF, 0x00, LNKA, 0x00,},
Package (0x04) {0x0019FFFF, 0x01, LNKB, 0x00,},
Package (0x04) {0x0019FFFF, 0x02, LNKC, 0x00,},
Package (0x04) {0x0019FFFF, 0x03, LNKD, 0x00,},
Package (0x04) {0x001AFFFF, 0x00, LNKB, 0x00,},
Package (0x04) {0x001AFFFF, 0x01, LNKC, 0x00,},
Package (0x04) {0x001AFFFF, 0x02, LNKD, 0x00,},
Package (0x04) {0x001AFFFF, 0x03, LNKA, 0x00,},
Package (0x04) {0x001BFFFF, 0x00, LNKC, 0x00,},
Package (0x04) {0x001BFFFF, 0x01, LNKD, 0x00,},
Package (0x04) {0x001BFFFF, 0x02, LNKA, 0x00,},
Package (0x04) {0x001BFFFF, 0x03, LNKB, 0x00,},
Package (0x04) {0x001CFFFF, 0x00, LNKD, 0x00,},
Package (0x04) {0x001CFFFF, 0x01, LNKA, 0x00,},
Package (0x04) {0x001CFFFF, 0x02, LNKB, 0x00,},
Package (0x04) {0x001CFFFF, 0x03, LNKC, 0x00,},
Package (0x04) {0x001DFFFF, 0x00, LNKA, 0x00,},
Package (0x04) {0x001DFFFF, 0x01, LNKB, 0x00,},
Package (0x04) {0x001DFFFF, 0x02, LNKC, 0x00,},
Package (0x04) {0x001DFFFF, 0x03, LNKD, 0x00,},
Package (0x04) {0x001EFFFF, 0x00, LNKB, 0x00,},
Package (0x04) {0x001EFFFF, 0x01, LNKC, 0x00,},
Package (0x04) {0x001EFFFF, 0x02, LNKD, 0x00,},
Package (0x04) {0x001EFFFF, 0x03, LNKA, 0x00,},
Package (0x04) {0x001FFFFF, 0x00, LNKC, 0x00,},
Package (0x04) {0x001FFFFF, 0x01, LNKD, 0x00,},
Package (0x04) {0x001FFFFF, 0x02, LNKA, 0x00,},
Package (0x04) {0x001FFFFF, 0x03, LNKB, 0x00,}
})
// PCI I/O APIC IRQ Routing table
// Must match pci.c:pci_slot_get_acpi_pirq
Name (PR01, Package ()
{
Package (0x04) {0x0002FFFF, 0x00, 0x00, 0x12,},
Package (0x04) {0x0002FFFF, 0x01, 0x00, 0x13,},
Package (0x04) {0x0002FFFF, 0x02, 0x00, 0x14,},
Package (0x04) {0x0002FFFF, 0x03, 0x00, 0x15,},
Package (0x04) {0x0003FFFF, 0x00, 0x00, 0x13,},
Package (0x04) {0x0003FFFF, 0x01, 0x00, 0x14,},
Package (0x04) {0x0003FFFF, 0x02, 0x00, 0x15,},
Package (0x04) {0x0003FFFF, 0x03, 0x00, 0x16,},
Package (0x04) {0x0004FFFF, 0x00, 0x00, 0x14,},
Package (0x04) {0x0004FFFF, 0x01, 0x00, 0x15,},
Package (0x04) {0x0004FFFF, 0x02, 0x00, 0x16,},
Package (0x04) {0x0004FFFF, 0x03, 0x00, 0x17,},
Package (0x04) {0x0005FFFF, 0x00, 0x00, 0x15,},
Package (0x04) {0x0005FFFF, 0x01, 0x00, 0x16,},
Package (0x04) {0x0005FFFF, 0x02, 0x00, 0x17,},
Package (0x04) {0x0005FFFF, 0x03, 0x00, 0x10,},
Package (0x04) {0x0006FFFF, 0x00, 0x00, 0x16,},
Package (0x04) {0x0006FFFF, 0x01, 0x00, 0x17,},
Package (0x04) {0x0006FFFF, 0x02, 0x00, 0x10,},
Package (0x04) {0x0006FFFF, 0x03, 0x00, 0x11,},
Package (0x04) {0x0007FFFF, 0x00, 0x00, 0x17,},
Package (0x04) {0x0007FFFF, 0x01, 0x00, 0x10,},
Package (0x04) {0x0007FFFF, 0x02, 0x00, 0x11,},
Package (0x04) {0x0007FFFF, 0x03, 0x00, 0x12,},
Package (0x04) {0x0008FFFF, 0x00, 0x00, 0x10,},
Package (0x04) {0x0008FFFF, 0x01, 0x00, 0x11,},
Package (0x04) {0x0008FFFF, 0x02, 0x00, 0x12,},
Package (0x04) {0x0008FFFF, 0x03, 0x00, 0x13,},
Package (0x04) {0x0009FFFF, 0x00, 0x00, 0x11,},
Package (0x04) {0x0009FFFF, 0x01, 0x00, 0x12,},
Package (0x04) {0x0009FFFF, 0x02, 0x00, 0x13,},
Package (0x04) {0x0009FFFF, 0x03, 0x00, 0x14,},
Package (0x04) {0x000AFFFF, 0x00, 0x00, 0x12,},
Package (0x04) {0x000AFFFF, 0x01, 0x00, 0x13,},
Package (0x04) {0x000AFFFF, 0x02, 0x00, 0x14,},
Package (0x04) {0x000AFFFF, 0x03, 0x00, 0x15,},
Package (0x04) {0x000BFFFF, 0x00, 0x00, 0x13,},
Package (0x04) {0x000BFFFF, 0x01, 0x00, 0x14,},
Package (0x04) {0x000BFFFF, 0x02, 0x00, 0x15,},
Package (0x04) {0x000BFFFF, 0x03, 0x00, 0x16,},
Package (0x04) {0x000CFFFF, 0x00, 0x00, 0x14,},
Package (0x04) {0x000CFFFF, 0x01, 0x00, 0x15,},
Package (0x04) {0x000CFFFF, 0x02, 0x00, 0x16,},
Package (0x04) {0x000CFFFF, 0x03, 0x00, 0x17,},
Package (0x04) {0x000DFFFF, 0x00, 0x00, 0x15,},
Package (0x04) {0x000DFFFF, 0x01, 0x00, 0x16,},
Package (0x04) {0x000DFFFF, 0x02, 0x00, 0x17,},
Package (0x04) {0x000DFFFF, 0x03, 0x00, 0x10,},
Package (0x04) {0x000EFFFF, 0x00, 0x00, 0x16,},
Package (0x04) {0x000EFFFF, 0x01, 0x00, 0x17,},
Package (0x04) {0x000EFFFF, 0x02, 0x00, 0x10,},
Package (0x04) {0x000EFFFF, 0x03, 0x00, 0x11,},
Package (0x04) {0x000FFFFF, 0x00, 0x00, 0x17,},
Package (0x04) {0x000FFFFF, 0x01, 0x00, 0x10,},
Package (0x04) {0x000FFFFF, 0x02, 0x00, 0x11,},
Package (0x04) {0x000FFFFF, 0x03, 0x00, 0x12,},
Package (0x04) {0x0010FFFF, 0x00, 0x00, 0x10,},
Package (0x04) {0x0010FFFF, 0x01, 0x00, 0x11,},
Package (0x04) {0x0010FFFF, 0x02, 0x00, 0x12,},
Package (0x04) {0x0010FFFF, 0x03, 0x00, 0x13,},
Package (0x04) {0x0011FFFF, 0x00, 0x00, 0x11,},
Package (0x04) {0x0011FFFF, 0x01, 0x00, 0x12,},
Package (0x04) {0x0011FFFF, 0x02, 0x00, 0x13,},
Package (0x04) {0x0011FFFF, 0x03, 0x00, 0x14,},
Package (0x04) {0x0012FFFF, 0x00, 0x00, 0x12,},
Package (0x04) {0x0012FFFF, 0x01, 0x00, 0x13,},
Package (0x04) {0x0012FFFF, 0x02, 0x00, 0x14,},
Package (0x04) {0x0012FFFF, 0x03, 0x00, 0x15,},
Package (0x04) {0x0013FFFF, 0x00, 0x00, 0x13,},
Package (0x04) {0x0013FFFF, 0x01, 0x00, 0x14,},
Package (0x04) {0x0013FFFF, 0x02, 0x00, 0x15,},
Package (0x04) {0x0013FFFF, 0x03, 0x00, 0x16,},
Package (0x04) {0x0014FFFF, 0x00, 0x00, 0x14,},
Package (0x04) {0x0014FFFF, 0x01, 0x00, 0x15,},
Package (0x04) {0x0014FFFF, 0x02, 0x00, 0x16,},
Package (0x04) {0x0014FFFF, 0x03, 0x00, 0x17,},
Package (0x04) {0x0015FFFF, 0x00, 0x00, 0x15,},
Package (0x04) {0x0015FFFF, 0x01, 0x00, 0x16,},
Package (0x04) {0x0015FFFF, 0x02, 0x00, 0x17,},
Package (0x04) {0x0015FFFF, 0x03, 0x00, 0x10,},
Package (0x04) {0x0016FFFF, 0x00, 0x00, 0x16,},
Package (0x04) {0x0016FFFF, 0x01, 0x00, 0x17,},
Package (0x04) {0x0016FFFF, 0x02, 0x00, 0x10,},
Package (0x04) {0x0016FFFF, 0x03, 0x00, 0x11,},
Package (0x04) {0x0017FFFF, 0x00, 0x00, 0x17,},
Package (0x04) {0x0017FFFF, 0x01, 0x00, 0x10,},
Package (0x04) {0x0017FFFF, 0x02, 0x00, 0x11,},
Package (0x04) {0x0017FFFF, 0x03, 0x00, 0x12,},
Package (0x04) {0x0018FFFF, 0x00, 0x00, 0x10,},
Package (0x04) {0x0018FFFF, 0x01, 0x00, 0x11,},
Package (0x04) {0x0018FFFF, 0x02, 0x00, 0x12,},
Package (0x04) {0x0018FFFF, 0x03, 0x00, 0x13,},
Package (0x04) {0x0019FFFF, 0x00, 0x00, 0x11,},
Package (0x04) {0x0019FFFF, 0x01, 0x00, 0x12,},
Package (0x04) {0x0019FFFF, 0x02, 0x00, 0x13,},
Package (0x04) {0x0019FFFF, 0x03, 0x00, 0x14,},
Package (0x04) {0x001AFFFF, 0x00, 0x00, 0x12,},
Package (0x04) {0x001AFFFF, 0x01, 0x00, 0x13,},
Package (0x04) {0x001AFFFF, 0x02, 0x00, 0x14,},
Package (0x04) {0x001AFFFF, 0x03, 0x00, 0x15,},
Package (0x04) {0x001BFFFF, 0x00, 0x00, 0x13,},
Package (0x04) {0x001BFFFF, 0x01, 0x00, 0x14,},
Package (0x04) {0x001BFFFF, 0x02, 0x00, 0x15,},
Package (0x04) {0x001BFFFF, 0x03, 0x00, 0x16,},
Package (0x04) {0x001CFFFF, 0x00, 0x00, 0x14,},
Package (0x04) {0x001CFFFF, 0x01, 0x00, 0x15,},
Package (0x04) {0x001CFFFF, 0x02, 0x00, 0x16,},
Package (0x04) {0x001CFFFF, 0x03, 0x00, 0x17,},
Package (0x04) {0x001DFFFF, 0x00, 0x00, 0x15,},
Package (0x04) {0x001DFFFF, 0x01, 0x00, 0x16,},
Package (0x04) {0x001DFFFF, 0x02, 0x00, 0x17,},
Package (0x04) {0x001DFFFF, 0x03, 0x00, 0x10,},
Package (0x04) {0x001EFFFF, 0x00, 0x00, 0x16,},
Package (0x04) {0x001EFFFF, 0x01, 0x00, 0x17,},
Package (0x04) {0x001EFFFF, 0x02, 0x00, 0x10,},
Package (0x04) {0x001EFFFF, 0x03, 0x00, 0x11,},
Package (0x04) {0x001FFFFF, 0x00, 0x00, 0x17,},
Package (0x04) {0x001FFFFF, 0x01, 0x00, 0x10,},
Package (0x04) {0x001FFFFF, 0x02, 0x00, 0x11,},
Package (0x04) {0x001FFFFF, 0x03, 0x00, 0x12,}
})
// Possible resource settings for PCI link A
Name (PRSA, ResourceTemplate ()
{
IRQ (Level, ActiveLow, Shared) {5,9,10,11}
})
// Possible resource settings for PCI link B
Name (PRSB, ResourceTemplate ()
{
IRQ (Level, ActiveLow, Shared) {5,9,10,11}
})
// Possible resource settings for PCI link C
Name (PRSC, ResourceTemplate ()
{
IRQ (Level, ActiveLow, Shared) {5,9,10,11}
})
// Possible resource settings for PCI link D
Name (PRSD, ResourceTemplate ()
{
IRQ (Level, ActiveLow, Shared) {5,9,10,11}
})
// PCI bus 0
Device (PCI0)
{
Name (_HID, EisaId ("PNP0A03"))
Name (_ADR, 0x00) // address
Name (_BBN, 0x00) // base bus adddress
Name (_UID, 0x00)
// Method that returns routing table
Method (_PRT, 0, NotSerialized)
{
if (LEqual (LAnd (PICM, UIOA), Zero)) {
DBG ("RETURNING PIC\n")
Store (0x00, \_SB.PCI0.SBRG.APDE)
Store (0x00, \_SB.PCI0.SBRG.APAD)
Return (PR00)
}
else {
DBG ("RETURNING APIC\n")
Store (0xbe, \_SB.PCI0.SBRG.APDE)
Store (0xef, \_SB.PCI0.SBRG.APAD)
Return (PR01)
}
}
Device (SBRG)
{
// Address of the PIIX3 (device 1 function 0)
Name (_ADR, 0x00010000)
OperationRegion (PCIC, PCI_Config, 0x00, 0xff)
Field (PCIC, ByteAcc, NoLock, Preserve)
{
Offset (0xad),
APAD, 8,
Offset (0xde),
APDE, 8,
}
// Keyboard device
Device (PS2K)
{
Name (_HID, EisaId ("PNP0303"))
Method (_STA, 0, NotSerialized)
{
Return (0x0F)
}
Name (_CRS, ResourceTemplate ()
{
IO (Decode16, 0x0060, 0x0060, 0x00, 0x01)
IO (Decode16, 0x0064, 0x0064, 0x00, 0x01)
IRQNoFlags () {1}
})
}
// DMA Controller
Device (DMAC)
{
Name (_HID, EisaId ("PNP0200"))
Name (_CRS, ResourceTemplate ()
{
IO (Decode16, 0x0000, 0x0000, 0x01, 0x10)
IO (Decode16, 0x0080, 0x0080, 0x01, 0x10)
IO (Decode16, 0x00C0, 0x00C0, 0x01, 0x20)
DMA (Compatibility, BusMaster, Transfer8_16) {4}
})
}
// Floppy disk controller
Device (FDC0)
{
Name (_HID, EisaId ("PNP0700"))
Method (_STA, 0, NotSerialized)
{
Return (UFDC)
}
// Current resource settings
Name (_CRS, ResourceTemplate ()
{
IO (Decode16, 0x03F0, 0x03F0, 0x01, 0x06)
IO (Decode16, 0x03F7, 0x03F7, 0x01, 0x01)
IRQNoFlags () {6}
DMA (Compatibility, NotBusMaster, Transfer8) {2}
})
// Possible resource settings
Name (_PRS, ResourceTemplate ()
{
IO (Decode16, 0x03F0, 0x03F0, 0x01, 0x06)
IO (Decode16, 0x03F7, 0x03F7, 0x01, 0x01)
IRQNoFlags () {6}
DMA (Compatibility, NotBusMaster, Transfer8) {2}
})
}
// Mouse device
Device (PS2M)
{
Name (_HID, EisaId ("PNP0F03"))
Method (_STA, 0, NotSerialized)
{
Return (0x0F)
}
Name (_CRS, ResourceTemplate ()
{
IRQNoFlags () {12}
})
}
// Parallel port
Device (LPT)
{
Name (_HID, EisaId ("PNP0400"))
Method (_STA, 0, NotSerialized)
{
Return (0x0F)
}
Name (_CRS, ResourceTemplate ()
{
IO (Decode16, 0x0378, 0x0378, 0x08, 0x08)
IO (Decode16, 0x0778, 0x0778, 0x08, 0x08)
IRQNoFlags () {7}
})
}
// RTC and CMOS
Device (RTC)
{
Name (_HID, EisaId ("PNP0B00"))
Name (_CRS, ResourceTemplate ()
{
IO (Decode16,
0x0070, // Range Minimum
0x0070, // Range Maximum
0x01, // Alignment
0x02, // Length
)
})
Method (_STA, 0, NotSerialized)
{
Return (0x0f)
}
}
// System Management Controller
Device (SMC)
{
Name (_HID, EisaId ("APP0001"))
Name (_CID, "smc-napa")
Method (_STA, 0, NotSerialized)
{
Return (USMC)
}
Name (_CRS, ResourceTemplate ()
{
IO (Decode16,
0x0300, // Range Minimum
0x0300, // Range Maximum
0x01, // Alignment
0x20, // Length
)
// This line seriously confuses Windows ACPI driver, so not even try to
// enable SMC for Windows guests
IRQNoFlags () {8}
})
}
}
// Control method battery
Device (BAT0)
{
Name (_HID, EisaId ("PNP0C0A"))
Name (_UID, 0x00)
Scope (\_GPE)
{
// GPE bit 0 handler
// GPE.0 must be set and SCI raised when
// battery info changed and _BIF must be
// re-evaluated
Method (_L00, 0, NotSerialized)
{
Notify (\_SB.PCI0.BAT0, 0x81)
}
}
OperationRegion (CBAT, SystemIO, 0x4040, 0x08)
Field (CBAT, DwordAcc, NoLock, Preserve)
{
IDX0, 32,
DAT0, 32,
}
IndexField (IDX0, DAT0, DwordAcc, NoLock, Preserve)
{
STAT, 32,
PRAT, 32,
RCAP, 32,
PVOL, 32,
UNIT, 32,
DCAP, 32,
LFCP, 32,
BTEC, 32,
DVOL, 32,
DWRN, 32,
DLOW, 32,
GRN1, 32,
GRN2, 32,
BSTA, 32,
APSR, 32,
}
Method (_STA, 0, NotSerialized)
{
return (BSTA)
}
Name (PBIF, Package ()
{
0x01, // Power unit, 1 - mA
0x7fffffff, // Design capacity
0x7fffffff, // Last full charge capacity
0x00, // Battery technology
0xffffffff, // Design voltage
0x00, // Design capacity of Warning
0x00, // Design capacity of Low
0x04, // Battery capacity granularity 1
0x04, // Battery capacity granularity 2
"1", // Model number
"0", // Serial number
"VBOX", // Battery type
"innotek" // OEM Information
})
Name (PBST, Package () {
0, // Battery state
0x7fffffff, // Battery present rate
0x7fffffff, // Battery remaining capacity
0x7fffffff // Battery present voltage
})
// Battery information
Method (_BIF, 0, NotSerialized)
{
Store (UNIT, Index (PBIF, 0,))
Store (DCAP, Index (PBIF, 1,))
Store (LFCP, Index (PBIF, 2,))
Store (BTEC, Index (PBIF, 3,))
Store (DVOL, Index (PBIF, 4,))
Store (DWRN, Index (PBIF, 5,))
Store (DLOW, Index (PBIF, 6,))
Store (GRN1, Index (PBIF, 7,))
Store (GRN2, Index (PBIF, 8,))
DBG ("_BIF:\n")
HEX4 (DerefOf (Index (PBIF, 0,)))
HEX4 (DerefOf (Index (PBIF, 1,)))
HEX4 (DerefOf (Index (PBIF, 2,)))
HEX4 (DerefOf (Index (PBIF, 3,)))
HEX4 (DerefOf (Index (PBIF, 4,)))
HEX4 (DerefOf (Index (PBIF, 5,)))
HEX4 (DerefOf (Index (PBIF, 6,)))
HEX4 (DerefOf (Index (PBIF, 7,)))
HEX4 (DerefOf (Index (PBIF, 8,)))
return (PBIF)
}
// Battery status
Method (_BST, 0, NotSerialized)
{
Store (STAT, Index (PBST, 0,))
Store (PRAT, Index (PBST, 1,))
Store (RCAP, Index (PBST, 2,))
Store (PVOL, Index (PBST, 3,))
/*
DBG ("_BST:\n")
HEX4 (DerefOf (Index (PBST, 0,)))
HEX4 (DerefOf (Index (PBST, 1,)))
HEX4 (DerefOf (Index (PBST, 2,)))
HEX4 (DerefOf (Index (PBST, 3,)))
*/
return (PBST)
}
}
Device (AC)
{
Name (_HID, "ACPI0003")
Name (_UID, 0x00)
Name (_PCL, Package (0x01)
{
\_SB
})
Method (_PSR, 0, NotSerialized)
{
// DBG ("_PSR:\n")
// HEX4 (\_SB.PCI0.BAT0.APSR)
return (\_SB.PCI0.BAT0.APSR)
}
Method (_STA, 0, NotSerialized)
{
return (0x0f)
}
}
}
}
Scope (\_SB)
{
Scope (PCI0)
{
// PCI0 current resource settings
Name (CRS, ResourceTemplate ()
{
WordBusNumber (ResourceProducer, MinFixed, MaxFixed, PosDecode,
0x0000,
0x0000,
0x00FF,
0x0000,
0x0100)
IO (Decode16, 0x0CF8, 0x0CF8, 0x01, 0x08)
WordIO (ResourceProducer, MinFixed, MaxFixed,
PosDecode, EntireRange,
0x0000,
0x0000,
0x0CF7,
0x0000,
0x0CF8)
WordIO (ResourceProducer, MinFixed, MaxFixed,
PosDecode, EntireRange,
0x0000,
0x0D00,
0xFFFF,
0x0000,
0xF300)
/* Taken from ACPI faq (with some modifications) */
DwordMemory( // descriptor for video RAM behind ISA bus
ResourceProducer, // bit 0 of general flags is 0
PosDecode,
MinFixed, // Range is fixed
MaxFixed, // Range is Fixed
Cacheable,
ReadWrite,
0x00000000, // Granularity
0x000a0000, // Min
0x000bffff, // Max
0x00000000, // Translation
0x00020000 // Range Length
)
DwordMemory( // Consumed-and-produced resource
// (all of low memory space)
ResourceProducer, // bit 0 of general flags is 0
PosDecode, // positive Decode
MinFixed, // Range is fixed
MaxFixed, // Range is fixed
Cacheable,
ReadWrite,
0x00000000, // Granularity
0x00000000, // Min (calculated dynamically)
0xffdfffff, // Max = 4GB - 2MB
0x00000000, // Translation
0xdfdfffff, // Range Length (calculated
// dynamically)
, // Optional field left blank
, // Optional field left blank
MEM3 // Name declaration for this
// descriptor
)
})
// Name (TOM, ResourceTemplate () // Memory above 4GB (aka high), appended when needed.
// {
// QWORDMemory(
// ResourceProducer, // bit 0 of general flags is 0
// PosDecode, // positive Decode
// MinFixed, // Range is fixed
// MaxFixed, // Range is fixed
// Cacheable,
// ReadWrite,
// 0x0000000000000000, // _GRA: Granularity.
// 0 /*0x0000000100000000*/, // _MIN: Min address, 4GB.
// 0 /*0x00000fffffffffff*/, // _MAX: Max possible address, 16TB.
// 0x0000000000000000, // _TRA: Translation
// 0x0000000000000000, // _LEN: Range length (calculated dynamically)
// , // ResourceSourceIndex: Optional field left blank
// , // ResourceSource: Optional field left blank
// MEM4 // Name declaration for this descriptor.
// )
// })
Method (_CRS, 0, NotSerialized)
{
CreateDwordField (CRS, \_SB.PCI0.MEM3._MIN, RAMT)
CreateDwordField (CRS, \_SB.PCI0.MEM3._LEN, RAMR)
// CreateQwordField (TOM, \_SB.PCI0.MEM4._LEN, TM4L)
// CreateQwordField (TOM, \_SB.PCI0.MEM4._LEN, TM4N)
// CreateQwordField (TOM, \_SB.PCI0.MEM4._LEN, TM4X)
Store (MEML, RAMT)
Subtract (0xffe00000, RAMT, RAMR)
// If (LNotEqual (MEMH, 0x00000000))
// {
// //
// // Update the TOM resource template and append it to CRS.
// // This way old < 4GB guest doesn't see anything different.
// // (MEMH is the memory above 4GB specified in 64KB units.)
// //
// // Note: ACPI v2 doesn't do 32-bit integers. IASL may fail on
// // seeing 64-bit constants and the code probably wont work.
// //
// Store (1, TM4N)
// ShiftLeft (TM4N, 32, TM4N)
//
// Store (0x00000fff, TM4X)
// ShiftLeft (TM4X, 32, TM4X)
// Or (TM4X, 0xffffffff, TM4X)
//
// Store (MEMH, TM4L)
// ShiftLeft (TM4L, 16, TM4L)
//
// ConcatenateResTemplate (CRS, TOM, Local2)
// Return (Local2)
// }
Return (CRS)
}
}
}
Scope (\_SB)
{
// High Precision Event Timer
Device(HPET) {
Name(_HID, EISAID("PNP0103"))
Name (_CID, 0x010CD041)
Name(_UID, 0)
Method (_STA, 0, NotSerialized) {
Return(UHPT)
}
Name(_CRS, ResourceTemplate() {
DWordMemory(
ResourceConsumer, PosDecode, MinFixed, MaxFixed,
NonCacheable, ReadWrite,
0x00000000,
0xFED00000,
0xFED003FF,
0x00000000,
0x00000400 /* 1K memory: FED00000 - FED003FF */
)
})
}
// Fields within PIIX3 configuration[0x60..0x63] with
// IRQ mappings
Field (\_SB.PCI0.SBRG.PCIC, ByteAcc, NoLock, Preserve)
{
Offset (0x60),
PIRA, 8,
PIRB, 8,
PIRC, 8,
PIRD, 8
}
Name (BUFA, ResourceTemplate ()
{
IRQ (Level, ActiveLow, Shared) {15}
})
CreateWordField (BUFA, 0x01, ICRS)
// Generic status of IRQ routing entry
Method (LSTA, 1, NotSerialized)
{
And (Arg0, 0x80, Local0)
// DBG ("LSTA: ")
// HEX (Arg0)
If (Local0)
{
Return (0x09)
}
Else
{
Return (0x0B)
}
}
// Generic "current resource settings" for routing entry
Method (LCRS, 1, NotSerialized)
{
And (Arg0, 0x0F, Local0)
ShiftLeft (0x01, Local0, ICRS)
// DBG ("LCRS: ")
// HEX (ICRS)
Return (BUFA)
}
// Generic "set resource settings" for routing entry
Method (LSRS, 1, NotSerialized)
{
CreateWordField (Arg0, 0x01, ISRS)
FindSetRightBit (ISRS, Local0)
Return (Decrement (Local0))
}
// Generic "disable" for routing entry
Method (LDIS, 1, NotSerialized)
{
Return (Or (Arg0, 0x80))
}
// Link A
Device (LNKA)
{
Name (_HID, EisaId ("PNP0C0F"))
Name (_UID, 0x01)
// Status
Method (_STA, 0, NotSerialized)
{
DBG ("LNKA._STA\n")
Return (LSTA (PIRA))
}
// Possible resource settings
Method (_PRS, 0, NotSerialized)
{
DBG ("LNKA._PRS\n")
Return (PRSA)
}
// Disable
Method (_DIS, 0, NotSerialized)
{
DBG ("LNKA._DIS\n")
Store (LDIS (PIRA), PIRA)
}
// Current resource settings
Method (_CRS, 0, NotSerialized)
{
DBG ("LNKA._CRS\n")
Return (LCRS (PIRA))
}
// Set resource settings
Method (_SRS, 1, NotSerialized)
{
DBG ("LNKA._SRS: ")
HEX (LSRS (Arg0))
Store (LSRS (Arg0), PIRA)
}
}
// Link B
Device (LNKB)
{
Name (_HID, EisaId ("PNP0C0F"))
Name (_UID, 0x02)
Method (_STA, 0, NotSerialized)
{
// DBG ("LNKB._STA\n")
Return (LSTA (PIRB))
}
Method (_PRS, 0, NotSerialized)
{
// DBG ("LNKB._PRS\n")
Return (PRSB)
}
Method (_DIS, 0, NotSerialized)
{
// DBG ("LNKB._DIS\n")
Store (LDIS (PIRB), PIRB)
}
Method (_CRS, 0, NotSerialized)
{
// DBG ("LNKB._CRS\n")
Return (LCRS (PIRB))
}
Method (_SRS, 1, NotSerialized)
{
DBG ("LNKB._SRS: ")
HEX (LSRS (Arg0))
Store (LSRS (Arg0), PIRB)
}
}
// Link C
Device (LNKC)
{
Name (_HID, EisaId ("PNP0C0F"))
Name (_UID, 0x03)
Method (_STA, 0, NotSerialized)
{
// DBG ("LNKC._STA\n")
Return (LSTA (PIRC))
}
Method (_PRS, 0, NotSerialized)
{
// DBG ("LNKC._PRS\n")
Return (PRSC)
}
Method (_DIS, 0, NotSerialized)
{
// DBG ("LNKC._DIS\n")
Store (LDIS (PIRC), PIRC)
}
Method (_CRS, 0, NotSerialized)
{
// DBG ("LNKC._CRS\n")
Return (LCRS (PIRC))
}
Method (_SRS, 1, NotSerialized)
{
DBG ("LNKC._SRS: ")
HEX (LSRS (Arg0))
Store (LSRS (Arg0), PIRC)
}
}
// Link D
Device (LNKD)
{
Name (_HID, EisaId ("PNP0C0F"))
Name (_UID, 0x04)
Method (_STA, 0, NotSerialized)
{
// DBG ("LNKD._STA\n")
Return (LSTA (PIRD))
}
Method (_PRS, 0, NotSerialized)
{
// DBG ("LNKD._PRS\n")
Return (PRSD)
}
Method (_DIS, 0, NotSerialized)
{
// DBG ("LNKD._DIS\n")
Store (LDIS (PIRA), PIRD)
}
Method (_CRS, 0, NotSerialized)
{
// DBG ("LNKD._CRS\n")
Return (LCRS (PIRD))
}
Method (_SRS, 1, NotSerialized)
{
DBG ("LNKD._SRS: ")
HEX (LSRS (Arg0))
Store (LSRS (Arg0), PIRD)
}
}
}
// Sx states
Name (_S0, Package (2) {
0x00,
0x00,
})
Name (_S5, Package (2) {
0x05,
0x05,
})
Method (_PTS, 1, NotSerialized)
{
DBG ("Prepare to sleep: ")
HEX (Arg0)
}
}
/*
* Local Variables:
* comment-start: "//"
* End:
*/