Vlv2DeviceRefCodePkg/AcpiTablesPCAT/Platform.asl - third_party/edk2 - Git at Google

 /**************************************************************************;
 ;*                                                                        *;
 ;*                                                                        *;
 ;*    Intel Corporation - ACPI Reference Code for the Baytrail            *;
 ;*    Family of Customer Reference Boards.                                *;
 ;*                                                                        *;
 ;*                                                                        *;
 ;*    Copyright (c) 2012  - 2014, Intel Corporation. All rights reserved    *;
 ;
 ; This program and the accompanying materials are licensed and made available under
 ; the terms and conditions of the BSD License that accompanies this distribution.
 ; The full text of the license may be found at
 ; http://opensource.org/licenses/bsd-license.php.
 ;
 ; THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
 ; WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
 ;
 ;*                                                                        *;
 ;*                                                                        *;
 ;**************************************************************************/


 // Define the following External variables to prevent a WARNING when
 // using ASL.EXE and an ERROR when using IASL.EXE.

 External(PDC0)
 External(PDC1)
 External(PDC2)
 External(PDC3)
 External(CFGD)
 External(\_PR.CPU0._PPC, IntObj)
 External(\_SB.PCI0.LPCB.TPM.PTS, MethodObj)
 External(\_SB.STR3, DeviceObj)
 External(\_SB.I2C1.BATC, DeviceObj)
 External(\_SB.DPTF, DeviceObj)
 External(\_SB.TCHG, DeviceObj)
 External(\_SB.IAOE.PTSL)
 External(\_SB.IAOE.WKRS)

 //
 // Create a Global MUTEX.
 //
 Mutex(MUTX,0)


 // Port 80h Update:
 //              Update 8 bits of the 32-bit Port 80h.
 //
 //      Arguments:
 //              Arg0:   0 = Write Port 80h, Bits 7:0 Only.
 //                      1 = Write Port 80h, Bits 15:8 Only.
 //                      2 = Write Port 80h, Bits 23:16 Only.
 //                      3 = Write Port 80h, Bits 31:24 Only.
 //              Arg1:   8-bit Value to write
 //
 //      Return Value:
 //              None

 Method(P8XH,2,Serialized)
 {
   If(LEqual(Arg0,0))            // Write Port 80h, Bits 7:0.
   {
     Store(Or(And(P80D,0xFFFFFF00),Arg1),P80D)
   }

   If(LEqual(Arg0,1))            // Write Port 80h, Bits 15:8.
   {
     Store(Or(And(P80D,0xFFFF00FF),ShiftLeft(Arg1,8)),P80D)
   }

   If(LEqual(Arg0,2))            // Write Port 80h, Bits 23:16.
   {
     Store(Or(And(P80D,0xFF00FFFF),ShiftLeft(Arg1,16)),P80D)
   }

   If(LEqual(Arg0,3))            // Write Port 80h, Bits 31:24.
   {
     Store(Or(And(P80D,0x00FFFFFF),ShiftLeft(Arg1,24)),P80D)
   }

 }

 //
 // Define SW SMI port as an ACPI Operating Region to use for generate SW SMI.
 //
 OperationRegion (SPRT, SystemIO, 0xB2, 2)
 Field (SPRT, ByteAcc, Lock, Preserve)
 {
   SSMP, 8
 }

 // The _PIC Control Method is optional for ACPI design.  It allows the
 // OS to inform the ASL code which interrupt controller is being used,
 // the 8259 or APIC.  The reference code in this document will address
 // PCI IRQ Routing and resource allocation for both cases.
 //
 // The values passed into _PIC are:
 //       0 = 8259
 //       1 = IOAPIC

 Method(\_PIC,1)
 {
   Store(Arg0,GPIC)
   Store(Arg0,PICM)
 }

 OperationRegion(SWC0, SystemIO, 0x610, 0x0F)
 Field(SWC0, ByteAcc, NoLock, Preserve)
 {
   G1S, 8,      //SWC GPE1_STS
   Offset(0x4),
   G1E, 8,
   Offset(0xA),
   G1S2, 8,     //SWC GPE1_STS_2
   G1S3, 8      //SWC GPE1_STS_3
 }

 OperationRegion (SWC1, SystemIO, \PMBS, 0x2C)
 Field(SWC1, DWordAcc, NoLock, Preserve)
 {
   Offset(0x20),
   G0S, 32,      //GPE0_STS
   Offset(0x28),
   G0EN, 32      //GPE0_EN
 }

 // Prepare to Sleep.  The hook is called when the OS is about to
 // enter a sleep state.  The argument passed is the numeric value of
 // the Sx state.

 Method(_PTS,1)
 {
   Store(0,P80D)         // Zero out the entire Port 80h DWord.
   P8XH(0,Arg0)          // Output Sleep State to Port 80h, Byte 0.

   //clear the 3 SWC status bits
   Store(Ones, G1S3)
   Store(Ones, G1S2)
   Store(1, G1S)

   //set SWC GPE1_EN
   Store(1,G1E)

   //clear GPE0_STS
   Store(Ones, G0S)


   If(LEqual(Arg0,3))   // If S3 Suspend
   {
     //
     // Disable Digital Thermal Sensor function when doing S3 suspend
     //
     If(CondRefOf(DTSE))
     {
       If(LGreaterEqual(DTSE, 0x01))
       {
         Store(30, DTSF) // DISABLE_UPDATE_DTS_EVERY_SMI
         Store(0xD0, SSMP) // DTS SW SMI
       }
     }
   }
 }

 // Wake.  This hook is called when the OS is about to wake from a
 // sleep state.  The argument passed is the numeric value of the
 // sleep state the system is waking from.
 Method(_WAK,1,Serialized)
 {
   P8XH(1,0xAB) // Beginning of _WAK.

   Notify(\_SB.PWRB,0x02)

   If(NEXP)
   {
     // Reinitialize the Native PCI Express after resume
     If(And(OSCC,0x02))
     {
       \_SB.PCI0.NHPG()
     }

     If(And(OSCC,0x04))   // PME control granted?
     {
       \_SB.PCI0.NPME()
     }
   }

   If(LOr(LEqual(Arg0,3), LEqual(Arg0,4)))   // If S3 or S4 Resume
   {


     // If CMP is enabled, we may need to restore the C-State and/or
     // P-State configuration, as it may have been saved before the
     // configuration was finalized based on OS/driver support.
     //
     //   CFGD[24]  = Two or more cores enabled
     //
     If(And(CFGD,0x01000000))
     {
       //
       // If CMP and the OSYS is WinXP SP1, we will enable C1-SMI if
       // C-States are enabled.
       //
       //   CFGD[7:4] = C4, C3, C2, C1 Capable/Enabled
       //
       //
     }

     // Windows XP SP2 does not properly restore the P-State
     // upon resume from S4 or S3 with degrade modes enabled.
     // Use the existing _PPC methods to cycle the available
     // P-States such that the processor ends up running at
     // the proper P-State.
     //
     // Note:  For S4, another possible W/A is to always boot
     // the system in LFM.
     //
     If(LEqual(OSYS,2002))
     {
       If(And(CFGD,0x01))
       {
         If(LGreater(\_PR.CPU0._PPC,0))
         {
           Subtract(\_PR.CPU0._PPC,1,\_PR.CPU0._PPC)
           PNOT()
           Add(\_PR.CPU0._PPC,1,\_PR.CPU0._PPC)
           PNOT()
         }
         Else
         {
           Add(\_PR.CPU0._PPC,1,\_PR.CPU0._PPC)
           PNOT()
           Subtract(\_PR.CPU0._PPC,1,\_PR.CPU0._PPC)
           PNOT()
         }
       }
     }
   }
   Return(Package() {0,0})
 }

 // Power Notification:
 //              Perform all needed OS notifications during a
 //              Power Switch.
 //
 //      Arguments:
 //              None
 //
 //      Return Value:
 //              None

 Method(PNOT,0,Serialized)
 {
   // If MP enabled and driver support is present, notify all
   // processors.

   If(MPEN)
   {
     If(And(PDC0,0x0008))
     {
       Notify(\_PR.CPU0,0x80)    // Eval CPU0 _PPC.

       If(And(PDC0,0x0010))
       {
         Sleep(100)
         Notify(\_PR.CPU0,0x81)  // Eval _CST.
       }
     }

     If(And(PDC1,0x0008))
     {
       Notify(\_PR.CPU1,0x80)    // Eval CPU1 _PPC.

       If(And(PDC1,0x0010))
       {
         Sleep(100)
         Notify(\_PR.CPU1,0x81)  // Eval _CST.
       }
     }

     If(And(PDC2,0x0008))
     {
       Notify(\_PR.CPU2,0x80)    // Eval CPU2 _PPC.

       If(And(PDC2,0x0010))
       {
         Sleep(100)
         Notify(\_PR.CPU2,0x81)  // Eval _CST.
       }
     }

     If(And(PDC3,0x0008))
     {
       Notify(\_PR.CPU3,0x80)    // Eval CPU3 _PPC.

       If(And(PDC3,0x0010))
       {
         Sleep(100)
         Notify(\_PR.CPU3,0x81)  // Eval _CST.
       }
     }
   }
   Else
   {
     Notify(\_PR.CPU0,0x80)      // Eval _PPC.
     Sleep(100)
     Notify(\_PR.CPU0,0x81)      // Eval _CST
   }
 }

 //
 // System Bus
 //
 Scope(\_SB)
 {
   Name(CRTT, 110) // Processor critical temperature
   Name(ACTT, 77)  // Active temperature limit for processor participant
   Name(GCR0, 70)  // Critical temperature for Generic participant 0 in degree celsius
   Name(GCR1, 70)  // Critical temperature for Generic participant 1 in degree celsius
   Name(GCR2, 70)  // Critical temperature for Generic participant 2 in degree celsius
   Name(GCR3, 70)  // Critical temperature for Generic participant 3 in degree celsius
   Name(GCR4, 70)  // Critical temperature for Generic participant 4 in degree celsius
   Name(GCR5, 70)  // Critical temperature for Generic participant 5 in degree celsius
   Name(GCR6, 70)  // Critical temperature for Generic participant 6 in degree celsius
   Name(PST0, 60)  // Passive temperature limit for Generic Participant 0 in degree celsius
   Name(PST1, 60)  // Passive temperature limit for Generic Participant 1 in degree celsius
   Name(PST2, 60)  // Passive temperature limit for Generic Participant 2 in degree celsius
   Name(PST3, 60)  // Passive temperature limit for Generic Participant 3 in degree celsius
   Name(PST4, 60)  // Passive temperature limit for Generic Participant 4 in degree celsius
   Name(PST5, 60)  // Passive temperature limit for Generic Participant 5 in degree celsius
   Name(PST6, 60)  // Passive temperature limit for Generic Participant 6 in degree celsius
   Name(LPMV, 3)
   Name(PDBG, 0)   // DPTF Super debug option
   Name(PDPM, 1)   // DPTF DPPM enable
   Name(PDBP, 1)   // DPTF DBPT enable (dynamic battery protection technology)
   Name(DLPO, Package()
   {
     0x1, // Revision
     0x1, // LPO Enable
     0x1, // LPO StartPState
     25,  // LPO StepSize
     0x1, //
     0x1, //
   })
   Name(BRQD, 0x00) // This is used to determine if DPTF display participant requested Brightness level change
   // or it is from Graphics driver. Value of 1 is for DPTF else it is 0

   Method(_INI,0)
   {
     // NVS has stale DTS data.  Get and update the values
     // with current temperatures.   Note that this will also
     // re-arm any AP Thermal Interrupts.
     // Read temperature settings from global NVS
     Store(DPCT, CRTT)
     Store(Subtract(DPPT, 8), ACTT)                      // Active Trip point = Passive trip point - 8
     Store(DGC0, GCR0)
     Store(DGC0, GCR1)
     Store(DGC1, GCR2)
     Store(DGC1, GCR3)
     Store(DGC1, GCR4)
     Store(DGC2, GCR5)
     Store(DGC2, GCR6)
     Store(DGP0, PST0)
     Store(DGP0, PST1)
     Store(DGP1, PST2)
     Store(DGP1, PST3)
     Store(DGP1, PST4)
     Store(DGP2, PST5)
     Store(DGP2, PST6)
     // Read Current low power mode setting from global NVS
     Store(DLPM, LPMV)


     // Update DPTF Super Debug option
     Store(DDBG, PDBG)


     // Update DPTF LPO Options
     Store(LPOE, Index(DLPO,1))
     Store(LPPS, Index(DLPO,2))
     Store(LPST, Index(DLPO,3))
     Store(LPPC, Index(DLPO,4))
     Store(LPPF, Index(DLPO,5))
     Store(DPME, PDPM)
   }

   // Define a (Control Method) Power Button.
   Device(PWRB)
   {
     Name(_HID,EISAID("PNP0C0C"))

     // GPI_SUS0 = GPE16 = Waketime SCI.  The PRW isn't working when
     // placed in any of the logical locations ( PS2K, PS2M),
     // so a Power Button Device was created specifically
     // for the WAKETIME_SCI PRW.

     Name(_PRW, Package() {16,4})
   }

   Device(SLPB)
   {
     Name(_HID, EISAID("PNP0C0E"))
   } // END SLPB

   Scope(PCI0)
   {
     Method(_INI,0)
     {
       // Determine the OS and store the value, where:
       //
       //   OSYS = 2009 = Windows 7 and Windows Server 2008 R2.
       //   OSYS = 2012 = Windows 8 and Windows Server 2012.
       //
       // Assume Windows 7 at a minimum.

       Store(2009,OSYS)

       // Check for a specific OS which supports _OSI.

       If(CondRefOf(\_OSI,Local0))
       {
         // Linux returns _OSI = TRUE for numerous Windows
         // strings so that it is fully compatible with
         // BIOSes available in the market today.  There are
         // currently 2 known exceptions to this model:
         //      1) Video Repost - Linux supports S3 without
         //              requireing a Driver, meaning a Video
         //              Repost will be required.
         //      2) On-Screen Branding - a full CMT Logo
         //              is limited to the WIN2K and WINXP
         //              Operating Systems only.

         // Use OSYS for Windows Compatibility.
         If(\_OSI("Windows 2009"))   // Windows 7 or Windows Server 2008 R2
         {
           Store(2009,OSYS)
         }
         If(\_OSI("Windows 2012"))   // Windows 8 or Windows Server 2012
         {
           Store(2012,OSYS)
         }
         If(\_OSI("Windows 2013"))   //Windows Blue
         {
           Store(2013,OSYS)
         }

         //
         // If CMP is enabled, enable SMM C-State
         // coordination.  SMM C-State coordination
         // will be disabled in _PDC if driver support
         // for independent C-States deeper than C1
         // is indicated.
       }
     }

     Method(NHPG,0,Serialized)
     {

     }

     Method(NPME,0,Serialized)
     {

     }
   } // end Scope(PCI0)

   Device (GPED)   //virtual GPIO device for ASL based AC/Battery/Expection notification
   {
     Name (_ADR, 0)
     Name (_HID, "INT0002")
     Name (_CID, "INT0002")
     Name (_DDN, "Virtual GPIO controller" )
     Name (_UID, 1)

     Method (_CRS, 0x0, Serialized)
     {
       Name (RBUF, ResourceTemplate ()
       {
         Interrupt (ResourceConsumer, Level, ActiveHigh, Exclusive, ,, ) {0x9} // Was 9
       })
       Return (RBUF)
     }

     Method (_STA, 0x0, NotSerialized)
     {
       Return(0x0)
     }

     Method (_AEI, 0x0, Serialized)
     {
       Name(RBUF, ResourceTemplate()
       {
         GpioInt(Edge, ActiveHigh, ExclusiveAndWake, PullDown,,"\\_SB.GPED",) {2} //pin 2
       })
       Return(RBUF)
     }

     Method(_E02)   // _Exx method will be called when interrupt is raised
     {
       If (LEqual (PWBS, 1))
       {
         Store (1, PWBS)      //Clear PowerButton Status
       }
       If (LEqual (PMEB, 1))
       {
         Store (1, PMEB)      //Clear PME_B0_STS
       }
       If (LEqual (\_SB.PCI0.SATA.PMES, 1))
       {
         Store (1, \_SB.PCI0.SATA.PMES)
         Notify (\_SB.PCI0.SATA, 0x02)
       }
       //
       // eMMC 4.41
       //
       If (LAnd(LEqual (\_SB.PCI0.EM41.PMES, 1), LEqual(PCIM, 1)))
       {
         Store (1, \_SB.PCI0.EM41.PMES)
         Notify (\_SB.PCI0.EM41, 0x02)
       }

       //
       // eMMC 4.5
       //
       If (LAnd(LEqual (\_SB.PCI0.EM45.PMES, 1), LEqual(PCIM, 1)))
       {
         Store (1, \_SB.PCI0.EM45.PMES)
         Notify (\_SB.PCI0.EM45, 0x02)
       }

       If (LEqual(HDAD, 0))
       {
         If (LEqual (\_SB.PCI0.HDEF.PMES, 1))
         {
           Store (1, \_SB.PCI0.HDEF.PMES)
           Notify (\_SB.PCI0.HDEF, 0x02)
         }
       }

       If (LEqual (\_SB.PCI0.EHC1.PMES, 1))
       {
         Store (1, \_SB.PCI0.EHC1.PMES)
         Notify (\_SB.PCI0.EHC1, 0x02)
       }
       If (LEqual (\_SB.PCI0.XHC1.PMES, 1))
       {
         Store (1, \_SB.PCI0.XHC1.PMES)
         Notify (\_SB.PCI0.XHC1, 0x02)
       }
       If (LEqual (\_SB.PCI0.SEC0.PMES, 1))
       {
         Or (\_SB.PCI0.SEC0.PMES, Zero, \_SB.PCI0.SEC0.PMES)
         Notify (\_SB.PCI0.SEC0, 0x02)
       }
     }
   } //  Device (GPED)

   //--------------------
   //  GPIO
   //--------------------
   Device (GPO0)
   {
     Name (_ADR, 0)
     Name (_HID, "INT33FC")
     Name (_CID, "INT33B2")
     Name (_DDN, "ValleyView2 General Purpose Input/Output (GPIO) controller" )
     Name (_UID, 1)
     Method (_CRS, 0x0, Serialized)
     {
       Name (RBUF, ResourceTemplate ()
       {
         Memory32Fixed (ReadWrite, 0x0FED0C000, 0x00001000)
         Interrupt(ResourceConsumer, Level, ActiveLow, Shared, , , ) {49}

       })
       Return (RBUF)
     }

     Method (_STA, 0x0, NotSerialized)
     {
       //
       // GPO driver will report present if any of below New IO bus exist
       //
       If (LOr(LEqual(L11D, 0), LEqual(L12D, 0))) // LPIO1 PWM #1 or #2 exist
       { Return(0xF) }
       If (LOr(LEqual(L13D, 0), LEqual(L14D, 0))) // LPIO1 HS-UART #1 or #2 exist
       { Return(0xF) }
       If (LOr(LEqual(L15D, 0), LEqual(SD1D, 0))) // LPIO1 SPI or SCC SDIO #1 exist
       { Return(0xF) }
       If (LOr(LEqual(SD2D, 0), LEqual(SD3D, 0))) // SCC SDIO #2 or #3 exist
       { Return(0xF) }
       If (LOr(LEqual(L21D, 0), LEqual(L22D, 0))) // LPIO2 I2C #1 or #2 exist
       { Return(0xF) }
       If (LOr(LEqual(L23D, 0), LEqual(L24D, 0))) // LPIO2 I2C #3 or #4 exist
       { Return(0xF) }
       If (LOr(LEqual(L25D, 0), LEqual(L26D, 0))) // LPIO2 I2C #5 or #6 exist
       { Return(0xF) }
       If (LEqual(L27D, 0))                       // LPIO2 I2C #7 exist
       { Return(0xF) }

       Return(0x0)
     }

     // Track status of GPIO OpRegion availability for this controller
     Name(AVBL, 0)
     Method(_REG,2)
     {
       If (Lequal(Arg0, 8))
       {
         Store(Arg1, ^AVBL)
       }
     }

     OperationRegion(GPOP, SystemIo, \GPBS, 0x50)
       Field(GPOP, ByteAcc, NoLock, Preserve) {
       Offset(0x28), // cfio_ioreg_SC_GP_LVL_63_32_ - [GPIO_BASE_ADDRESS] + 28h
           ,  21,
       BTD3,  1,     //This field is not used. Pin not defined in schematics. Closest is GPIO_S5_35 - COMBO_BT_WAKEUP
       Offset(0x48), // cfio_ioreg_SC_GP_LVL_95_64_ - [GPIO_BASE_ADDRESS] + 48h
           ,  30,
       SHD3,  1      //GPIO_S0_SC_95 - SENS_HUB_RST_N
     }


   }   //  Device (GPO0)

   Device (GPO1)
   {
     Name (_ADR, 0)
     Name (_HID, "INT33FC")
     Name (_CID, "INT33B2")
     Name (_DDN, "ValleyView2 GPNCORE controller" )
     Name (_UID, 2)
     Method (_CRS, 0x0, Serialized)
     {
       Name (RBUF, ResourceTemplate ()
       {
         Memory32Fixed (ReadWrite, 0x0FED0D000, 0x00001000)
         Interrupt(ResourceConsumer, Level, ActiveLow, Shared, , , ) {48}
       })
       Return (RBUF)
     }

     Method (_STA, 0x0, NotSerialized)
     {
       Return(\_SB.GPO0._STA)
     }
   }   //  Device (GPO1)

   Device (GPO2)
   {
     Name (_ADR, 0)
     Name (_HID, "INT33FC")
     Name (_CID, "INT33B2")
     Name (_DDN, "ValleyView2 GPSUS controller" )
     Name (_UID, 3)
     Method (_CRS, 0x0, Serialized)
     {
       Name (RBUF, ResourceTemplate ()
       {
         Memory32Fixed (ReadWrite, 0x0FED0E000, 0x00001000)
         Interrupt(ResourceConsumer, Level, ActiveLow, Shared, , , ) {50}
       })
       Return (RBUF)
     }

     Method (_STA, 0x0, NotSerialized)
     {
       Return(^^GPO0._STA)
     }

     // Track status of GPIO OpRegion availability for this controller
     Name(AVBL, 0)
     Method(_REG,2)
     {
       If (Lequal(Arg0, 8))
       {
         Store(Arg1, ^AVBL)
       }
     }
     //Manipulate GPIO line using GPIO operation regions.
     Name (GMOD, ResourceTemplate ()     //One method of creating a Connection for OpRegion accesses in Field definitions
     {
       //is creating a named object that refers to the connection attributes
       GpioIo (Exclusive, PullDefault, 0, 0, IoRestrictionOutputOnly, "\\_SB.GPO2") {21}  //sus 21+128 BT+WLAN_ENABLE
     })

   OperationRegion(GPOP, SystemIo, \GPBS, 0x100)
   Field(GPOP, ByteAcc, NoLock, Preserve) {
       Offset(0x88),  // cfio_ioreg_SUS_GP_LVL_31_0_ - [GPIO_BASE_ADDRESS] + 88h
           ,  20,
       WFD3,  1
     }


   }   //  Device (GPO2)
   include ("PchScc.asl")
   include ("PchLpss.asl")

          Scope(I2C7)
   {

   } //End Scope(I2C7)

 } // end Scope(\_SB)

 Name(PICM, 0)   // Global Name, returns current Interrupt controller mode; updated from _PIC control method
	/**************************************************************************;
	;* *;
	;* *;
	;* Intel Corporation - ACPI Reference Code for the Baytrail *;
	;* Family of Customer Reference Boards. *;
	;* *;
	;* *;
	;* Copyright (c) 2012 - 2014, Intel Corporation. All rights reserved *;
	;
	; This program and the accompanying materials are licensed and made available under
	; the terms and conditions of the BSD License that accompanies this distribution.
	; The full text of the license may be found at
	; http://opensource.org/licenses/bsd-license.php.
	;
	; THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
	; WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
	;
	;* *;
	;* *;
	;**************************************************************************/


	// Define the following External variables to prevent a WARNING when
	// using ASL.EXE and an ERROR when using IASL.EXE.

	External(PDC0)
	External(PDC1)
	External(PDC2)
	External(PDC3)
	External(CFGD)
	External(\_PR.CPU0._PPC, IntObj)
	External(\_SB.PCI0.LPCB.TPM.PTS, MethodObj)
	External(\_SB.STR3, DeviceObj)
	External(\_SB.I2C1.BATC, DeviceObj)
	External(\_SB.DPTF, DeviceObj)
	External(\_SB.TCHG, DeviceObj)
	External(\_SB.IAOE.PTSL)
	External(\_SB.IAOE.WKRS)

	//
	// Create a Global MUTEX.
	//
	Mutex(MUTX,0)



	// Port 80h Update:
	// Update 8 bits of the 32-bit Port 80h.
	//
	// Arguments:
	// Arg0: 0 = Write Port 80h, Bits 7:0 Only.
	// 1 = Write Port 80h, Bits 15:8 Only.
	// 2 = Write Port 80h, Bits 23:16 Only.
	// 3 = Write Port 80h, Bits 31:24 Only.
	// Arg1: 8-bit Value to write
	//
	// Return Value:
	// None

	Method(P8XH,2,Serialized)
	{
	If(LEqual(Arg0,0)) // Write Port 80h, Bits 7:0.
	{
	Store(Or(And(P80D,0xFFFFFF00),Arg1),P80D)
	}

	If(LEqual(Arg0,1)) // Write Port 80h, Bits 15:8.
	{
	Store(Or(And(P80D,0xFFFF00FF),ShiftLeft(Arg1,8)),P80D)
	}

	If(LEqual(Arg0,2)) // Write Port 80h, Bits 23:16.
	{
	Store(Or(And(P80D,0xFF00FFFF),ShiftLeft(Arg1,16)),P80D)
	}

	If(LEqual(Arg0,3)) // Write Port 80h, Bits 31:24.
	{
	Store(Or(And(P80D,0x00FFFFFF),ShiftLeft(Arg1,24)),P80D)
	}

	}

	//
	// Define SW SMI port as an ACPI Operating Region to use for generate SW SMI.
	//
	OperationRegion (SPRT, SystemIO, 0xB2, 2)
	Field (SPRT, ByteAcc, Lock, Preserve)
	{
	SSMP, 8
	}

	// The _PIC Control Method is optional for ACPI design. It allows the
	// OS to inform the ASL code which interrupt controller is being used,
	// the 8259 or APIC. The reference code in this document will address
	// PCI IRQ Routing and resource allocation for both cases.
	//
	// The values passed into _PIC are:
	// 0 = 8259
	// 1 = IOAPIC

	Method(\_PIC,1)
	{
	Store(Arg0,GPIC)
	Store(Arg0,PICM)
	}

	OperationRegion(SWC0, SystemIO, 0x610, 0x0F)
	Field(SWC0, ByteAcc, NoLock, Preserve)
	{
	G1S, 8, //SWC GPE1_STS
	Offset(0x4),
	G1E, 8,
	Offset(0xA),
	G1S2, 8, //SWC GPE1_STS_2
	G1S3, 8 //SWC GPE1_STS_3
	}

	OperationRegion (SWC1, SystemIO, \PMBS, 0x2C)
	Field(SWC1, DWordAcc, NoLock, Preserve)
	{
	Offset(0x20),
	G0S, 32, //GPE0_STS
	Offset(0x28),
	G0EN, 32 //GPE0_EN
	}

	// Prepare to Sleep. The hook is called when the OS is about to
	// enter a sleep state. The argument passed is the numeric value of
	// the Sx state.

	Method(_PTS,1)
	{
	Store(0,P80D) // Zero out the entire Port 80h DWord.
	P8XH(0,Arg0) // Output Sleep State to Port 80h, Byte 0.

	//clear the 3 SWC status bits
	Store(Ones, G1S3)
	Store(Ones, G1S2)
	Store(1, G1S)

	//set SWC GPE1_EN
	Store(1,G1E)

	//clear GPE0_STS
	Store(Ones, G0S)


	If(LEqual(Arg0,3)) // If S3 Suspend
	{
	//
	// Disable Digital Thermal Sensor function when doing S3 suspend
	//
	If(CondRefOf(DTSE))
	{
	If(LGreaterEqual(DTSE, 0x01))
	{
	Store(30, DTSF) // DISABLE_UPDATE_DTS_EVERY_SMI
	Store(0xD0, SSMP) // DTS SW SMI
	}
	}
	}
	}

	// Wake. This hook is called when the OS is about to wake from a
	// sleep state. The argument passed is the numeric value of the
	// sleep state the system is waking from.
	Method(_WAK,1,Serialized)
	{
	P8XH(1,0xAB) // Beginning of _WAK.

	Notify(\_SB.PWRB,0x02)

	If(NEXP)
	{
	// Reinitialize the Native PCI Express after resume
	If(And(OSCC,0x02))
	{
	\_SB.PCI0.NHPG()
	}

	If(And(OSCC,0x04)) // PME control granted?
	{
	\_SB.PCI0.NPME()
	}
	}

	If(LOr(LEqual(Arg0,3), LEqual(Arg0,4))) // If S3 or S4 Resume
	{


	// If CMP is enabled, we may need to restore the C-State and/or
	// P-State configuration, as it may have been saved before the
	// configuration was finalized based on OS/driver support.
	//
	// CFGD[24] = Two or more cores enabled
	//
	If(And(CFGD,0x01000000))
	{
	//
	// If CMP and the OSYS is WinXP SP1, we will enable C1-SMI if
	// C-States are enabled.
	//
	// CFGD[7:4] = C4, C3, C2, C1 Capable/Enabled
	//
	//
	}

	// Windows XP SP2 does not properly restore the P-State
	// upon resume from S4 or S3 with degrade modes enabled.
	// Use the existing _PPC methods to cycle the available
	// P-States such that the processor ends up running at
	// the proper P-State.
	//
	// Note: For S4, another possible W/A is to always boot
	// the system in LFM.
	//
	If(LEqual(OSYS,2002))
	{
	If(And(CFGD,0x01))
	{
	If(LGreater(\_PR.CPU0._PPC,0))
	{
	Subtract(\_PR.CPU0._PPC,1,\_PR.CPU0._PPC)
	PNOT()
	Add(\_PR.CPU0._PPC,1,\_PR.CPU0._PPC)
	PNOT()
	}
	Else
	{
	Add(\_PR.CPU0._PPC,1,\_PR.CPU0._PPC)
	PNOT()
	Subtract(\_PR.CPU0._PPC,1,\_PR.CPU0._PPC)
	PNOT()
	}
	}
	}
	}
	Return(Package() {0,0})
	}

	// Power Notification:
	// Perform all needed OS notifications during a
	// Power Switch.
	//
	// Arguments:
	// None
	//
	// Return Value:
	// None

	Method(PNOT,0,Serialized)
	{
	// If MP enabled and driver support is present, notify all
	// processors.

	If(MPEN)
	{
	If(And(PDC0,0x0008))
	{
	Notify(\_PR.CPU0,0x80) // Eval CPU0 _PPC.

	If(And(PDC0,0x0010))
	{
	Sleep(100)
	Notify(\_PR.CPU0,0x81) // Eval _CST.
	}
	}

	If(And(PDC1,0x0008))
	{
	Notify(\_PR.CPU1,0x80) // Eval CPU1 _PPC.

	If(And(PDC1,0x0010))
	{
	Sleep(100)
	Notify(\_PR.CPU1,0x81) // Eval _CST.
	}
	}

	If(And(PDC2,0x0008))
	{
	Notify(\_PR.CPU2,0x80) // Eval CPU2 _PPC.

	If(And(PDC2,0x0010))
	{
	Sleep(100)
	Notify(\_PR.CPU2,0x81) // Eval _CST.
	}
	}

	If(And(PDC3,0x0008))
	{
	Notify(\_PR.CPU3,0x80) // Eval CPU3 _PPC.

	If(And(PDC3,0x0010))
	{
	Sleep(100)
	Notify(\_PR.CPU3,0x81) // Eval _CST.
	}
	}
	}
	Else
	{
	Notify(\_PR.CPU0,0x80) // Eval _PPC.
	Sleep(100)
	Notify(\_PR.CPU0,0x81) // Eval _CST
	}
	}

	//
	// System Bus
	//
	Scope(\_SB)
	{
	Name(CRTT, 110) // Processor critical temperature
	Name(ACTT, 77) // Active temperature limit for processor participant
	Name(GCR0, 70) // Critical temperature for Generic participant 0 in degree celsius
	Name(GCR1, 70) // Critical temperature for Generic participant 1 in degree celsius
	Name(GCR2, 70) // Critical temperature for Generic participant 2 in degree celsius
	Name(GCR3, 70) // Critical temperature for Generic participant 3 in degree celsius
	Name(GCR4, 70) // Critical temperature for Generic participant 4 in degree celsius
	Name(GCR5, 70) // Critical temperature for Generic participant 5 in degree celsius
	Name(GCR6, 70) // Critical temperature for Generic participant 6 in degree celsius
	Name(PST0, 60) // Passive temperature limit for Generic Participant 0 in degree celsius
	Name(PST1, 60) // Passive temperature limit for Generic Participant 1 in degree celsius
	Name(PST2, 60) // Passive temperature limit for Generic Participant 2 in degree celsius
	Name(PST3, 60) // Passive temperature limit for Generic Participant 3 in degree celsius
	Name(PST4, 60) // Passive temperature limit for Generic Participant 4 in degree celsius
	Name(PST5, 60) // Passive temperature limit for Generic Participant 5 in degree celsius
	Name(PST6, 60) // Passive temperature limit for Generic Participant 6 in degree celsius
	Name(LPMV, 3)
	Name(PDBG, 0) // DPTF Super debug option
	Name(PDPM, 1) // DPTF DPPM enable
	Name(PDBP, 1) // DPTF DBPT enable (dynamic battery protection technology)
	Name(DLPO, Package()
	{
	0x1, // Revision
	0x1, // LPO Enable
	0x1, // LPO StartPState
	25, // LPO StepSize
	0x1, //
	0x1, //
	})
	Name(BRQD, 0x00) // This is used to determine if DPTF display participant requested Brightness level change
	// or it is from Graphics driver. Value of 1 is for DPTF else it is 0

	Method(_INI,0)
	{
	// NVS has stale DTS data. Get and update the values
	// with current temperatures. Note that this will also
	// re-arm any AP Thermal Interrupts.
	// Read temperature settings from global NVS
	Store(DPCT, CRTT)
	Store(Subtract(DPPT, 8), ACTT) // Active Trip point = Passive trip point - 8
	Store(DGC0, GCR0)
	Store(DGC0, GCR1)
	Store(DGC1, GCR2)
	Store(DGC1, GCR3)
	Store(DGC1, GCR4)
	Store(DGC2, GCR5)
	Store(DGC2, GCR6)
	Store(DGP0, PST0)
	Store(DGP0, PST1)
	Store(DGP1, PST2)
	Store(DGP1, PST3)
	Store(DGP1, PST4)
	Store(DGP2, PST5)
	Store(DGP2, PST6)
	// Read Current low power mode setting from global NVS
	Store(DLPM, LPMV)


	// Update DPTF Super Debug option
	Store(DDBG, PDBG)


	// Update DPTF LPO Options
	Store(LPOE, Index(DLPO,1))
	Store(LPPS, Index(DLPO,2))
	Store(LPST, Index(DLPO,3))
	Store(LPPC, Index(DLPO,4))
	Store(LPPF, Index(DLPO,5))
	Store(DPME, PDPM)
	}

	// Define a (Control Method) Power Button.
	Device(PWRB)
	{
	Name(_HID,EISAID("PNP0C0C"))

	// GPI_SUS0 = GPE16 = Waketime SCI. The PRW isn't working when
	// placed in any of the logical locations ( PS2K, PS2M),
	// so a Power Button Device was created specifically
	// for the WAKETIME_SCI PRW.

	Name(_PRW, Package() {16,4})
	}

	Device(SLPB)
	{
	Name(_HID, EISAID("PNP0C0E"))
	} // END SLPB

	Scope(PCI0)
	{
	Method(_INI,0)
	{
	// Determine the OS and store the value, where:
	//
	// OSYS = 2009 = Windows 7 and Windows Server 2008 R2.
	// OSYS = 2012 = Windows 8 and Windows Server 2012.
	//
	// Assume Windows 7 at a minimum.

	Store(2009,OSYS)

	// Check for a specific OS which supports _OSI.

	If(CondRefOf(\_OSI,Local0))
	{
	// Linux returns _OSI = TRUE for numerous Windows
	// strings so that it is fully compatible with
	// BIOSes available in the market today. There are
	// currently 2 known exceptions to this model:
	// 1) Video Repost - Linux supports S3 without
	// requireing a Driver, meaning a Video
	// Repost will be required.
	// 2) On-Screen Branding - a full CMT Logo
	// is limited to the WIN2K and WINXP
	// Operating Systems only.

	// Use OSYS for Windows Compatibility.
	If(\_OSI("Windows 2009")) // Windows 7 or Windows Server 2008 R2
	{
	Store(2009,OSYS)
	}
	If(\_OSI("Windows 2012")) // Windows 8 or Windows Server 2012
	{
	Store(2012,OSYS)
	}
	If(\_OSI("Windows 2013")) //Windows Blue
	{
	Store(2013,OSYS)
	}

	//
	// If CMP is enabled, enable SMM C-State
	// coordination. SMM C-State coordination
	// will be disabled in _PDC if driver support
	// for independent C-States deeper than C1
	// is indicated.
	}
	}

	Method(NHPG,0,Serialized)
	{

	}

	Method(NPME,0,Serialized)
	{

	}
	} // end Scope(PCI0)

	Device (GPED) //virtual GPIO device for ASL based AC/Battery/Expection notification
	{
	Name (_ADR, 0)
	Name (_HID, "INT0002")
	Name (_CID, "INT0002")
	Name (_DDN, "Virtual GPIO controller" )
	Name (_UID, 1)

	Method (_CRS, 0x0, Serialized)
	{
	Name (RBUF, ResourceTemplate ()
	{
	Interrupt (ResourceConsumer, Level, ActiveHigh, Exclusive, ,, ) {0x9} // Was 9
	})
	Return (RBUF)
	}

	Method (_STA, 0x0, NotSerialized)
	{
	Return(0x0)
	}

	Method (_AEI, 0x0, Serialized)
	{
	Name(RBUF, ResourceTemplate()
	{
	GpioInt(Edge, ActiveHigh, ExclusiveAndWake, PullDown,,"\\_SB.GPED",) {2} //pin 2
	})
	Return(RBUF)
	}

	Method(_E02) // _Exx method will be called when interrupt is raised
	{
	If (LEqual (PWBS, 1))
	{
	Store (1, PWBS) //Clear PowerButton Status
	}
	If (LEqual (PMEB, 1))
	{
	Store (1, PMEB) //Clear PME_B0_STS
	}
	If (LEqual (\_SB.PCI0.SATA.PMES, 1))
	{
	Store (1, \_SB.PCI0.SATA.PMES)
	Notify (\_SB.PCI0.SATA, 0x02)
	}
	//
	// eMMC 4.41
	//
	If (LAnd(LEqual (\_SB.PCI0.EM41.PMES, 1), LEqual(PCIM, 1)))
	{
	Store (1, \_SB.PCI0.EM41.PMES)
	Notify (\_SB.PCI0.EM41, 0x02)
	}

	//
	// eMMC 4.5
	//
	If (LAnd(LEqual (\_SB.PCI0.EM45.PMES, 1), LEqual(PCIM, 1)))
	{
	Store (1, \_SB.PCI0.EM45.PMES)
	Notify (\_SB.PCI0.EM45, 0x02)
	}

	If (LEqual(HDAD, 0))
	{
	If (LEqual (\_SB.PCI0.HDEF.PMES, 1))
	{
	Store (1, \_SB.PCI0.HDEF.PMES)
	Notify (\_SB.PCI0.HDEF, 0x02)
	}
	}

	If (LEqual (\_SB.PCI0.EHC1.PMES, 1))
	{
	Store (1, \_SB.PCI0.EHC1.PMES)
	Notify (\_SB.PCI0.EHC1, 0x02)
	}
	If (LEqual (\_SB.PCI0.XHC1.PMES, 1))
	{
	Store (1, \_SB.PCI0.XHC1.PMES)
	Notify (\_SB.PCI0.XHC1, 0x02)
	}
	If (LEqual (\_SB.PCI0.SEC0.PMES, 1))
	{
	Or (\_SB.PCI0.SEC0.PMES, Zero, \_SB.PCI0.SEC0.PMES)
	Notify (\_SB.PCI0.SEC0, 0x02)
	}
	}
	} // Device (GPED)

	//--------------------
	// GPIO
	//--------------------
	Device (GPO0)
	{
	Name (_ADR, 0)
	Name (_HID, "INT33FC")
	Name (_CID, "INT33B2")
	Name (_DDN, "ValleyView2 General Purpose Input/Output (GPIO) controller" )
	Name (_UID, 1)
	Method (_CRS, 0x0, Serialized)
	{
	Name (RBUF, ResourceTemplate ()
	{
	Memory32Fixed (ReadWrite, 0x0FED0C000, 0x00001000)
	Interrupt(ResourceConsumer, Level, ActiveLow, Shared, , , ) {49}

	})
	Return (RBUF)
	}

	Method (_STA, 0x0, NotSerialized)
	{
	//
	// GPO driver will report present if any of below New IO bus exist
	//
	If (LOr(LEqual(L11D, 0), LEqual(L12D, 0))) // LPIO1 PWM #1 or #2 exist
	{ Return(0xF) }
	If (LOr(LEqual(L13D, 0), LEqual(L14D, 0))) // LPIO1 HS-UART #1 or #2 exist
	{ Return(0xF) }
	If (LOr(LEqual(L15D, 0), LEqual(SD1D, 0))) // LPIO1 SPI or SCC SDIO #1 exist
	{ Return(0xF) }
	If (LOr(LEqual(SD2D, 0), LEqual(SD3D, 0))) // SCC SDIO #2 or #3 exist
	{ Return(0xF) }
	If (LOr(LEqual(L21D, 0), LEqual(L22D, 0))) // LPIO2 I2C #1 or #2 exist
	{ Return(0xF) }
	If (LOr(LEqual(L23D, 0), LEqual(L24D, 0))) // LPIO2 I2C #3 or #4 exist
	{ Return(0xF) }
	If (LOr(LEqual(L25D, 0), LEqual(L26D, 0))) // LPIO2 I2C #5 or #6 exist
	{ Return(0xF) }
	If (LEqual(L27D, 0)) // LPIO2 I2C #7 exist
	{ Return(0xF) }

	Return(0x0)
	}

	// Track status of GPIO OpRegion availability for this controller
	Name(AVBL, 0)
	Method(_REG,2)
	{
	If (Lequal(Arg0, 8))
	{
	Store(Arg1, ^AVBL)
	}
	}

	OperationRegion(GPOP, SystemIo, \GPBS, 0x50)
	Field(GPOP, ByteAcc, NoLock, Preserve) {
	Offset(0x28), // cfio_ioreg_SC_GP_LVL_63_32_ - [GPIO_BASE_ADDRESS] + 28h
	, 21,
	BTD3, 1, //This field is not used. Pin not defined in schematics. Closest is GPIO_S5_35 - COMBO_BT_WAKEUP
	Offset(0x48), // cfio_ioreg_SC_GP_LVL_95_64_ - [GPIO_BASE_ADDRESS] + 48h
	, 30,
	SHD3, 1 //GPIO_S0_SC_95 - SENS_HUB_RST_N
	}



	} // Device (GPO0)

	Device (GPO1)
	{
	Name (_ADR, 0)
	Name (_HID, "INT33FC")
	Name (_CID, "INT33B2")
	Name (_DDN, "ValleyView2 GPNCORE controller" )
	Name (_UID, 2)
	Method (_CRS, 0x0, Serialized)
	{
	Name (RBUF, ResourceTemplate ()
	{
	Memory32Fixed (ReadWrite, 0x0FED0D000, 0x00001000)
	Interrupt(ResourceConsumer, Level, ActiveLow, Shared, , , ) {48}
	})
	Return (RBUF)
	}

	Method (_STA, 0x0, NotSerialized)
	{
	Return(\_SB.GPO0._STA)
	}
	} // Device (GPO1)

	Device (GPO2)
	{
	Name (_ADR, 0)
	Name (_HID, "INT33FC")
	Name (_CID, "INT33B2")
	Name (_DDN, "ValleyView2 GPSUS controller" )
	Name (_UID, 3)
	Method (_CRS, 0x0, Serialized)
	{
	Name (RBUF, ResourceTemplate ()
	{
	Memory32Fixed (ReadWrite, 0x0FED0E000, 0x00001000)
	Interrupt(ResourceConsumer, Level, ActiveLow, Shared, , , ) {50}
	})
	Return (RBUF)
	}

	Method (_STA, 0x0, NotSerialized)
	{
	Return(^^GPO0._STA)
	}

	// Track status of GPIO OpRegion availability for this controller
	Name(AVBL, 0)
	Method(_REG,2)
	{
	If (Lequal(Arg0, 8))
	{
	Store(Arg1, ^AVBL)
	}
	}
	//Manipulate GPIO line using GPIO operation regions.
	Name (GMOD, ResourceTemplate () //One method of creating a Connection for OpRegion accesses in Field definitions
	{
	//is creating a named object that refers to the connection attributes
	GpioIo (Exclusive, PullDefault, 0, 0, IoRestrictionOutputOnly, "\\_SB.GPO2") {21} //sus 21+128 BT+WLAN_ENABLE
	})

	OperationRegion(GPOP, SystemIo, \GPBS, 0x100)
	Field(GPOP, ByteAcc, NoLock, Preserve) {
	Offset(0x88), // cfio_ioreg_SUS_GP_LVL_31_0_ - [GPIO_BASE_ADDRESS] + 88h
	, 20,
	WFD3, 1
	}


	} // Device (GPO2)
	include ("PchScc.asl")
	include ("PchLpss.asl")

	Scope(I2C7)
	{

	} //End Scope(I2C7)

	} // end Scope(\_SB)

	Name(PICM, 0) // Global Name, returns current Interrupt controller mode; updated from _PIC control method