amdk8: ASL include for K8 temperature sensor support in ACPI

Add a ACPI Source Language snippet which if included as
shown in the comments in the file, exposes the 4 possible
temperature sensors in the CPU as ACPI thermal zones.

Change-Id: I94dd773108e348a0fdb9d2f8d6cfe415d5fa0339
Signed-off-by: Christoph Grenz <christophg+cb@grenz-bonn.de>
Reviewed-on: http://review.coreboot.org/222
Tested-by: build bot (Jenkins)
Reviewed-by: Marc Jones <marcj303@gmail.com>
This commit is contained in:
Christoph Grenz 2011-09-18 23:20:55 +02:00 committed by Marc Jones
parent 55437c57a9
commit 80311eab8c
1 changed files with 289 additions and 0 deletions

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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2011 Christoph Grenz <christophg+cb@grenz-bonn.de>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
/*
* include this file into a mainboards DSDT inside the PCI device
* "K8 Miscellaneous Control" and it will expose the temperature
* sensors of the processor as thermal zones.
*
* If, for example, the K8 Misc. Control device is on 0:18.3, include the
* following inside the PCI0 device:
*
* Device(K8MC) {
* Name (_ADR, 0x00180003)
* #include northbridge/amd/amdk8/thermal_mixin.asl
* }
*
* Note: as only the current temperature and the trip temperature for
* "Software Thermal Control" are available in the PCI registers, but the
* linux driver for thermal zones needs a critical temperature value, a
* reasonable critical temperature is calculated by simply adding 6°C to
* the trip temperature.
*
* The used registers are documented in the "BIOS and Kernel Developer's
* Guide for AMD NPT Family 0Fh Processors"
* http://support.amd.com/us/Processor_TechDocs/32559.pdf
*
*/
#ifndef K8TEMP_CRITICAL_ADD
# define K8TEMP_CRITICAL_ADD 6
#endif
OperationRegion(K8TR, PCI_Config, 0xE4, 0x4)
Field(K8TR, DWordAcc, NoLock, Preserve) {
, 1,
THTP, 1, /* Temperature sensor trip occured */
CORE, 1, /* Select Core */
TTS0, 1, /* Temperature sensor trip on CPU1 (or single core CPU0) */
TTS1, 1, /* Temperature sensor trip on CPU0 */
TTEN, 1, /* Temperature sensor trip enabled */
PLAC, 1, /* Select Sensor */
, 1,
DOFF, 6, /* Diode offset (signed 6bit-Integer) in °C */
TFRC, 2, /* Temperature fractions */
TVAL, 8, /* Temperature value in °C biased by -49 */
TJOF, 5,
, 2,
SWTT, 1, /* Induce a thermtrip event (for diagnostic purposes) */
}
OperationRegion(K8ST, PCI_Config, 0x70, 0x1)
Field(K8ST, ByteAcc, NoLock, Preserve) {
TMAX, 5, /* Maximum temperature for software thermal control, in °C, biased by 52 */
}
/* Calculates temperature in tenths Kelvin from given TVAL and TFRC values */
Method(K8PT, 2) {
Divide(Multiply(Arg1, 5), 2, , Local0)
Return (Add(Multiply(Add(Arg0, 224),10), Local0))
}
/* Calculates the diode offset from a DOFF value */
Method(K8PO, 1) {
If (And(Arg0, 0x20))
{
Return (Multiply(Subtract(Xor(Arg0, 0x3F), 1), 10))
}
Else {
Return (Multiply(Arg0, 10))
}
}
ThermalZone (K8T0) {
Name(_HID, EisaId("PNP0C11"))
Name(_UID, "k8-0")
Name(_STR, Unicode("K8 compatible CPU Core 1 Thermal Sensor 1"))
Method(_STA) {
Store(CORE, Local0)
Store(PLAC, Local1)
Store(Zero, CORE)
Store(Zero, PLAC)
If (LOr(PLAC, CORE)) {
Store(Local0, CORE)
Store(Local1, PLAC)
Return (0x00)
}
If (LOr(LNot(TVAL), LEqual(TVAL, 0xFF))) {
Return (0x00)
}
Store(Local0, CORE)
Store(Local1, PLAC)
Return (0x0F)
}
Method(_TMP) {
Store(CORE, Local0)
Store(PLAC, Local1)
Store(Zero, CORE)
Store(Zero, PLAC)
Store (K8PT(TVAL, TFRC), Local2)
Add (K8PO(DOFF), Local2, Local2)
Store(Local0, CORE)
Store(Local1, PLAC)
Return (Local2)
}
Method(_CRT) {
Add(TMAX, 325, Local0)
Add(Local0, K8TEMP_CRITICAL_ADD, Local0)
Return (Multiply(Local0, 10))
}
}
ThermalZone (K8T1) {
Name(_HID, EisaId("PNP0C11"))
Name(_UID, "k8-1")
Name(_STR, Unicode("K8 compatible CPU Core 1 Thermal Sensor 2"))
Name(_TZD, Package () {\_PR.CPU0})
Method(_STA) {
Store(CORE, Local0)
Store(PLAC, Local1)
Store(Zero, CORE)
Store(Zero, PLAC)
If (LOr(PLAC, CORE)) {
Store(Local0, CORE)
Store(Local1, PLAC)
Return (0x00)
}
Store(One, PLAC)
If (LOr(LNot(TVAL), LEqual(TVAL, 0xFF))) {
Return (0x00)
}
Store(Local0, CORE)
Store(Local1, PLAC)
Return (0x0F)
}
Method(_TMP) {
Store(CORE, Local0)
Store(PLAC, Local1)
Store(Zero, CORE)
Store(One, PLAC)
Store (K8PT(TVAL, TFRC), Local2)
Add (K8PO(DOFF), Local2, Local2)
Store(Local0, CORE)
Store(Local1, PLAC)
Return (Local2)
}
Method(_CRT) {
Add(TMAX, 325, Local0)
Add(Local0, K8TEMP_CRITICAL_ADD, Local0)
Return (Multiply(Local0, 10))
}
}
ThermalZone (K8T2) {
Name(_HID, EisaId("PNP0C11"))
Name(_UID, "k8-2")
Name(_STR, Unicode("K8 compatible CPU Core 2 Thermal Sensor 1"))
Name(_TZD, Package () {\_PR.CPU0})
Method(_STA) {
Store(CORE, Local0)
Store(PLAC, Local1)
Store(Zero, CORE)
Store(Zero, PLAC)
If (LOr(PLAC, CORE)) {
Store(Local0, CORE)
Store(Local1, PLAC)
Return (0x00)
}
Store(One, CORE)
If (LOr(LNot(TVAL), LEqual(TVAL, 0xFF))) {
Return (0x00)
}
Store(Local0, CORE)
Store(Local1, PLAC)
Return (0x0F)
}
Method(_TMP) {
Store(CORE, Local0)
Store(PLAC, Local1)
Store(One, CORE)
Store(Zero, PLAC)
Store (K8PT(TVAL, TFRC), Local2)
Add (K8PO(DOFF), Local2, Local2)
Store(Local0, CORE)
Store(Local1, PLAC)
Return (Local2)
}
Method(_CRT) {
Add(TMAX, 325, Local0)
Add(Local0, K8TEMP_CRITICAL_ADD, Local0)
Return (Multiply(Local0, 10))
}
}
ThermalZone (K8T3) {
Name(_HID, EisaId("PNP0C11"))
Name(_UID, "k8-3")
Name(_STR, Unicode("K8 compatible CPU Core 2 Thermal Sensor 2"))
Name(_TZD, Package () {\_PR.CPU0})
Method(_STA) {
Store(CORE, Local0)
Store(PLAC, Local1)
Store(Zero, CORE)
Store(Zero, PLAC)
If (LOr(PLAC, CORE)) {
Store(Local0, CORE)
Store(Local1, PLAC)
Return (0x00)
}
Store(One, CORE)
Store(One, PLAC)
If (LOr(LNot(TVAL), LEqual(TVAL, 0xFF))) {
Return (0x00)
}
Store(Local0, CORE)
Store(Local1, PLAC)
Return (0x0F)
}
Method(_TMP) {
Store(CORE, Local0)
Store(PLAC, Local1)
Store(One, CORE)
Store(One, PLAC)
Store (K8PT(TVAL, TFRC), Local2)
Add (K8PO(DOFF), Local2, Local2)
Store(Local0, CORE)
Store(Local1, PLAC)
Return (Local2)
}
Method(_CRT) {
Add(TMAX, 325, Local0)
Add(Local0, K8TEMP_CRITICAL_ADD, Local0)
Return (Multiply(Local0, 10))
}
}