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Upload BSD-licensed Vlv2TbltDevicePkg and Vlv2DeviceRefCodePkg to https://svn.code.sf.net/p/edk2/code/trunk/edk2/, which are for MinnowBoard MAX open source project. Contributed-under: TianoCore Contribution Agreement 1.0 Signed-off-by: David Wei <david.wei@intel.com> Reviewed-by: Mike Wu <mike.wu@intel.com> Reviewed-by: Hot Tian <hot.tian@intel.com> git-svn-id: https://svn.code.sf.net/p/edk2/code/trunk/edk2@16599 6f19259b-4bc3-4df7-8a09-765794883524
2015-01-12 10:37:20 +01:00
/*++
Copyright (c) 1999 - 2014, Intel Corporation. All rights reserved
Vlv2DeviceRefCodePkg: Replace BSD License with BSD+Patent License https://bugzilla.tianocore.org/show_bug.cgi?id=1373 Replace BSD 2-Clause License with BSD+Patent License. This change is based on the following emails: https://lists.01.org/pipermail/edk2-devel/2019-February/036260.html https://lists.01.org/pipermail/edk2-devel/2018-October/030385.html RFCs with detailed process for the license change: V3: https://lists.01.org/pipermail/edk2-devel/2019-March/038116.html V2: https://lists.01.org/pipermail/edk2-devel/2019-March/037669.html V1: https://lists.01.org/pipermail/edk2-devel/2019-March/037500.html Contributed-under: TianoCore Contribution Agreement 1.1 Signed-off-by: Michael D Kinney <michael.d.kinney@intel.com> Reviewed-by: Qian Yi <yi.qian@intel.com> Reviewed-by: Zailing Sun <zailiang.sun@intel.com>
2019-04-04 01:07:26 +02:00
SPDX-License-Identifier: BSD-2-Clause-Patent
Upload BSD-licensed Vlv2TbltDevicePkg and Vlv2DeviceRefCodePkg to https://svn.code.sf.net/p/edk2/code/trunk/edk2/, which are for MinnowBoard MAX open source project. Contributed-under: TianoCore Contribution Agreement 1.0 Signed-off-by: David Wei <david.wei@intel.com> Reviewed-by: Mike Wu <mike.wu@intel.com> Reviewed-by: Hot Tian <hot.tian@intel.com> git-svn-id: https://svn.code.sf.net/p/edk2/code/trunk/edk2@16599 6f19259b-4bc3-4df7-8a09-765794883524
2015-01-12 10:37:20 +01:00
Module Name:
INTELGFX.ASL
Abstract:
IGD OpRegion/Software ACPI Reference Code for the Baytrail Family.
--*/
// Enable/Disable Output Switching. In WIN2K/WINXP, _DOS = 0 will
// get called during initialization to prepare for an ACPI Display
// Switch Event. During an ACPI Display Switch, the OS will call
// _DOS = 2 immediately after a Notify=0x80 to temporarily disable
// all Display Switching. After ACPI Display Switching is complete,
// the OS will call _DOS = 0 to re-enable ACPI Display Switching.
Method(_DOS,1)
{
// Store Display Switching and LCD brightness BIOS control bit
Store(And(Arg0,7),DSEN)
}
// Enumerate the Display Environment. This method will return
// valid addresses for all display device encoders present in the
// system. The Miniport Driver will reject the addresses for every
// encoder that does not have an attached display device. After
// enumeration is complete, the OS will call the _DGS methods
// during a display switch only for the addresses accepted by the
// Miniport Driver. For hot-insertion and removal of display
// devices, a re-enumeration notification will be required so the
// address of the newly present display device will be accepted by
// the Miniport Driver.
Method(_DOD, 0, Serialized)
{
Store(0, NDID)
If(LNotEqual(DIDL, Zero))
{
Store(SDDL(DIDL),DID1)
}
If(LNotEqual(DDL2, Zero))
{
Store(SDDL(DDL2),DID2)
}
If(LNotEqual(DDL3, Zero))
{
Store(SDDL(DDL3),DID3)
}
If(LNotEqual(DDL4, Zero))
{
Store(SDDL(DDL4),DID4)
}
If(LNotEqual(DDL5, Zero))
{
Store(SDDL(DDL5),DID5)
}
// TODO - This level of flexibility is not needed for a true
// OEM design. Simply determine the greatest number of
// encoders the platform will suppport then remove all
// return packages beyond that value. Note that for
// current silicon, the maximum number of encoders
// possible is 5.
If(LEqual(NDID,1))
{
If (LNOTEqual (ISPD, 0))
{
Name(TMP0,Package() {0xFFFFFFFF,0xFFFFFFFF})
Store(Or(0x10000,DID1),Index(TMP0,0))
//Add ISP device to GFX0
Store(0x00020F38, Index(TMP0,1))
Return(TMP0)
} Else
{
Name(TMP1,Package() {0xFFFFFFFF})
Store(Or(0x10000,DID1),Index(TMP1,0))
Return(TMP1)
}
}
If(LEqual(NDID,2))
{
If (LNOTEqual (ISPD, 0))
{
Name(TMP2,Package() {0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF})
Store(Or(0x10000,DID1),Index(TMP2,0))
Store(Or(0x10000,DID2),Index(TMP2,1))
//Add ISP device to GFX0
Store(0x00020F38, Index(TMP2,2))
Return(TMP2)
} Else
{
Name(TMP3,Package() {0xFFFFFFFF, 0xFFFFFFFF})
Store(Or(0x10000,DID1),Index(TMP3,0))
Store(Or(0x10000,DID2),Index(TMP3,1))
Return(TMP3)
}
}
If(LEqual(NDID,3))
{
If (LNOTEqual (ISPD, 0))
{
Name(TMP4,Package() {0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF,0xFFFFFFFF})
Store(Or(0x10000,DID1),Index(TMP4,0))
Store(Or(0x10000,DID2),Index(TMP4,1))
Store(Or(0x10000,DID3),Index(TMP4,2))
//Add ISP device to GFX0
Store(0x00020F38, Index(TMP4,3))
Return(TMP4)
} Else
{
Name(TMP5,Package() {0xFFFFFFFF, 0xFFFFFFFF,0xFFFFFFFF})
Store(Or(0x10000,DID1),Index(TMP5,0))
Store(Or(0x10000,DID2),Index(TMP5,1))
Store(Or(0x10000,DID3),Index(TMP5,2))
Return(TMP5)
}
}
If(LEqual(NDID,4))
{
If (LNOTEqual (ISPD, 0))
{
Name(TMP6,Package() {0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF})
Store(Or(0x10000,DID1),Index(TMP6,0))
Store(Or(0x10000,DID2),Index(TMP6,1))
Store(Or(0x10000,DID3),Index(TMP6,2))
Store(Or(0x10000,DID4),Index(TMP6,3))
//Add ISP device to GFX0
Store(0x00020F38, Index(TMP6,4))
Return(TMP6)
} Else
{
Name(TMP7,Package() {0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF})
Store(Or(0x10000,DID1),Index(TMP7,0))
Store(Or(0x10000,DID2),Index(TMP7,1))
Store(Or(0x10000,DID3),Index(TMP7,2))
Store(Or(0x10000,DID4),Index(TMP7,3))
Return(TMP7)
}
}
If(LGreater(NDID,4))
{
If (LNOTEqual (ISPD, 0))
{
Name(TMP8,Package() {0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF})
Store(Or(0x10000,DID1),Index(TMP8,0))
Store(Or(0x10000,DID2),Index(TMP8,1))
Store(Or(0x10000,DID3),Index(TMP8,2))
Store(Or(0x10000,DID4),Index(TMP8,3))
Store(Or(0x10000,DID5),Index(TMP8,4))
//Add ISP device to GFX0
Store(0x00020F38, Index(TMP8,5))
Return(TMP8)
} Else
{
Name(TMP9,Package() {0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF})
Store(Or(0x10000,DID1),Index(TMP9,0))
Store(Or(0x10000,DID2),Index(TMP9,1))
Store(Or(0x10000,DID3),Index(TMP9,2))
Store(Or(0x10000,DID4),Index(TMP9,3))
Store(Or(0x10000,DID5),Index(TMP9,4))
Return(TMP9)
}
}
// If nothing else, return Unknown LFP.
// (Prevents compiler warning.)
//Add ISP device to GFX0
If (LNOTEqual (ISPD, 0))
{
Return(Package() {0x00000400, 0x00020F38})
} Else
{
Return(Package() {0x00000400})
}
}
Device(DD01)
{
// Return Unique ID.
Method(_ADR,0,Serialized)
{
If(LEqual(And(0x0F00,DID1),0x400))
{
Store(0x1, EDPV)
Store(DID1, DIDX)
Return(1)
}
If(LEqual(DID1,0))
{
Return(1)
}
Else
{
Return(And(0xFFFF,DID1))
}
}
// Return the Current Status.
Method(_DCS,0)
{
Return(CDDS(DID1))
}
// Query Graphics State (active or inactive).
Method(_DGS,0)
{
Return(NDDS(DID1))
}
// Device Set State.
// _DSS Table:
//
// BIT31 BIT30 Execution
// 0 0 Don't implement.
// 0 1 Cache change. Nothing to Implement.
// 1 0 Don't Implement.
// 1 1 Display Switch Complete. Implement.
Method(_DSS,1)
{
If(LEqual(And(Arg0,0xC0000000),0xC0000000))
{
// State change was performed by the
// Video Drivers. Simply update the
// New State.
Store(NSTE,CSTE)
}
}
}
Device(DD02)
{
// Return Unique ID.
Method(_ADR,0,Serialized)
{
If(LEqual(And(0x0F00,DID2),0x400))
{
Store(0x2, EDPV)
Store(DID2, DIDX)
Return(2)
}
If(LEqual(DID2,0))
{
Return(2)
}
Else
{
Return(And(0xFFFF,DID2))
}
}
// Return the Current Status.
Method(_DCS,0)
{
Return(CDDS(DID2))
}
// Query Graphics State (active or inactive).
Method(_DGS,0)
{
// Return the Next State.
Return(NDDS(DID2))
}
// Device Set State. (See table above.)
Method(_DSS,1)
{
If(LEqual(And(Arg0,0xC0000000),0xC0000000))
{
// State change was performed by the
// Video Drivers. Simply update the
// New State.
Store(NSTE,CSTE)
}
}
}
Device(DD03)
{
// Return Unique ID.
Method(_ADR,0,Serialized)
{
If(LEqual(And(0x0F00,DID3),0x400))
{
Store(0x3, EDPV)
Store(DID3, DIDX)
Return(3)
}
If(LEqual(DID3,0))
{
Return(3)
}
Else
{
Return(And(0xFFFF,DID3))
}
}
// Return the Current Status.
Method(_DCS,0)
{
If(LEqual(DID3,0))
{
Return(0x0B)
}
Else
{
Return(CDDS(DID3))
}
}
// Query Graphics State (active or inactive).
Method(_DGS,0)
{
Return(NDDS(DID3))
}
// Device Set State. (See table above.)
Method(_DSS,1)
{
If(LEqual(And(Arg0,0xC0000000),0xC0000000))
{
// State change was performed by the
// Video Drivers. Simply update the
// New State.
Store(NSTE,CSTE)
}
}
}
Device(DD04)
{
// Return Unique ID.
Method(_ADR,0,Serialized)
{
If(LEqual(And(0x0F00,DID4),0x400))
{
Store(0x4, EDPV)
Store(DID4, DIDX)
Return(4)
}
If(LEqual(DID4,0))
{
Return(4)
}
Else
{
Return(And(0xFFFF,DID4))
}
}
// Return the Current Status.
Method(_DCS,0)
{
If(LEqual(DID4,0))
{
Return(0x0B)
}
Else
{
Return(CDDS(DID4))
}
}
// Query Graphics State (active or inactive).
Method(_DGS,0)
{
Return(NDDS(DID4))
}
// Device Set State. (See table above.)
Method(_DSS,1)
{
If(LEqual(And(Arg0,0xC0000000),0xC0000000))
{
// State change was performed by the
// Video Drivers. Simply update the
// New State.
Store(NSTE,CSTE)
}
}
}
Device(DD05)
{
// Return Unique ID.
Method(_ADR,0,Serialized)
{
If(LEqual(And(0x0F00,DID5),0x400))
{
Store(0x5, EDPV)
Store(DID5, DIDX)
Return(5)
}
If(LEqual(DID5,0))
{
Return(5)
}
Else
{
Return(And(0xFFFF,DID5))
}
}
// Return the Current Status.
Method(_DCS,0)
{
If(LEqual(DID5,0))
{
Return(0x0B)
}
Else
{
Return(CDDS(DID5))
}
}
// Query Graphics State (active or inactive).
Method(_DGS,0)
{
Return(NDDS(DID5))
}
// Device Set State. (See table above.)
Method(_DSS,1)
{
If(LEqual(And(Arg0,0xC0000000),0xC0000000))
{
// State change was performed by the
// Video Drivers. Simply update the
// New State.
Store(NSTE,CSTE)
}
}
}
Device(DD06)
{
// Return Unique ID.
Method(_ADR,0,Serialized)
{
If(LEqual(And(0x0F00,DID6),0x400))
{
Store(0x6, EDPV)
Store(DID6, DIDX)
Return(6)
}
If(LEqual(DID6,0))
{
Return(6)
}
Else
{
Return(And(0xFFFF,DID6))
}
}
// Return the Current Status.
Method(_DCS,0)
{
If(LEqual(DID6,0))
{
Return(0x0B)
}
Else
{
Return(CDDS(DID6))
}
}
// Query Graphics State (active or inactive).
Method(_DGS,0)
{
Return(NDDS(DID6))
}
// Device Set State. (See table above.)
Method(_DSS,1)
{
If(LEqual(And(Arg0,0xC0000000),0xC0000000))
{
// State change was performed by the
// Video Drivers. Simply update the
// New State.
Store(NSTE,CSTE)
}
}
}
Device(DD07)
{
// Return Unique ID.
Method(_ADR,0,Serialized)
{
If(LEqual(And(0x0F00,DID7),0x400))
{
Store(0x7, EDPV)
Store(DID7, DIDX)
Return(7)
}
If(LEqual(DID7,0))
{
Return(7)
}
Else
{
Return(And(0xFFFF,DID7))
}
}
// Return the Current Status.
Method(_DCS,0)
{
If(LEqual(DID7,0))
{
Return(0x0B)
}
Else
{
Return(CDDS(DID7))
}
}
// Query Graphics State (active or inactive).
Method(_DGS,0)
{
Return(NDDS(DID7))
}
// Device Set State. (See table above.)
Method(_DSS,1)
{
If(LEqual(And(Arg0,0xC0000000),0xC0000000))
{
// State change was performed by the
// Video Drivers. Simply update the
// New State.
Store(NSTE,CSTE)
}
}
}
Device(DD08)
{
// Return Unique ID.
Method(_ADR,0,Serialized)
{
If(LEqual(And(0x0F00,DID8),0x400))
{
Store(0x8, EDPV)
Store(DID8, DIDX)
Return(8)
}
If(LEqual(DID8,0))
{
Return(8)
}
Else
{
Return(And(0xFFFF,DID8))
}
}
// Return the Current Status.
Method(_DCS,0)
{
If(LEqual(DID8,0))
{
Return(0x0B)
}
Else
{
Return(CDDS(DID8))
}
}
// Query Graphics State (active or inactive).
Method(_DGS,0)
{
Return(NDDS(DID8))
}
// Device Set State. (See table above.)
Method(_DSS,1)
{
If(LEqual(And(Arg0,0xC0000000),0xC0000000))
{
// State change was performed by the
// Video Drivers. Simply update the
// New State.
Store(NSTE,CSTE)
}
}
}
//device for eDP
Device(DD1F)
{
// Return Unique ID.
Method(_ADR,0,Serialized)
{
If(LEqual(EDPV, 0x0))
{
Return(0x1F)
}
Else
{
Return(And(0xFFFF,DIDX))
}
}
// Return the Current Status.
Method(_DCS,0)
{
If(LEqual(EDPV, 0x0))
{
Return(0x00)
}
Else
{
Return(CDDS(DIDX))
}
}
// Query Graphics State (active or inactive).
Method(_DGS,0)
{
Return(NDDS(DIDX))
}
// Device Set State. (See table above.)
Method(_DSS,1)
{
If(LEqual(And(Arg0,0xC0000000),0xC0000000))
{
// State change was performed by the
// Video Drivers. Simply update the
// New State.
Store(NSTE,CSTE)
}
}
// Query List of Brightness Control Levels Supported.
Method(_BCL,0)
{
// List of supported brightness levels in the following sequence.
// Level when machine has full power.
// Level when machine is on batteries.
// Other supported levels.
Return(Package() {80, 50, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100})
}
// Set the Brightness Level.
Method (_BCM,1)
{
// Set the requested level if it is between 0 and 100%.
If(LAnd(LGreaterEqual(Arg0,0),LLessEqual(Arg0,100)))
{
\_SB.PCI0.GFX0.AINT(1, Arg0)
Store(Arg0,BRTL) // Store Brightness Level.
}
}
// Brightness Query Current level.
Method (_BQC,0)
{
Return(BRTL)
}
}
Method(SDDL,1)
{
Increment(NDID)
Store(And(Arg0,0xF0F),Local0)
Or(0x80000000,Local0, Local1)
If(LEqual(DIDL,Local0))
{
Return(Local1)
}
If(LEqual(DDL2,Local0))
{
Return(Local1)
}
If(LEqual(DDL3,Local0))
{
Return(Local1)
}
If(LEqual(DDL4,Local0))
{
Return(Local1)
}
If(LEqual(DDL5,Local0))
{
Return(Local1)
}
If(LEqual(DDL6,Local0))
{
Return(Local1)
}
If(LEqual(DDL7,Local0))
{
Return(Local1)
}
If(LEqual(DDL8,Local0))
{
Return(Local1)
}
Return(0)
}
Method(CDDS,1)
{
Store(And(Arg0,0xF0F),Local0)
If(LEqual(0, Local0))
{
Return(0x1D)
}
If(LEqual(CADL, Local0))
{
Return(0x1F)
}
If(LEqual(CAL2, Local0))
{
Return(0x1F)
}
If(LEqual(CAL3, Local0))
{
Return(0x1F)
}
If(LEqual(CAL4, Local0))
{
Return(0x1F)
}
If(LEqual(CAL5, Local0))
{
Return(0x1F)
}
If(LEqual(CAL6, Local0))
{
Return(0x1F)
}
If(LEqual(CAL7, Local0))
{
Return(0x1F)
}
If(LEqual(CAL8, Local0))
{
Return(0x1F)
}
Return(0x1D)
}
Method(NDDS,1)
{
Store(And(Arg0,0xF0F),Local0)
If(LEqual(0, Local0))
{
Return(0)
}
If(LEqual(NADL, Local0))
{
Return(1)
}
If(LEqual(NDL2, Local0))
{
Return(1)
}
If(LEqual(NDL3, Local0))
{
Return(1)
}
If(LEqual(NDL4, Local0))
{
Return(1)
}
If(LEqual(NDL5, Local0))
{
Return(1)
}
If(LEqual(NDL6, Local0))
{
Return(1)
}
If(LEqual(NDL7, Local0))
{
Return(1)
}
If(LEqual(NDL8, Local0))
{
Return(1)
}
Return(0)
}
//
// Include IGD OpRegion/Software SCI interrupt handler which is use by
// the graphics drivers to request data from system BIOS.
//
include("IgdOpRn.ASL")