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SSDT-HACK.dsl
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SSDT-HACK.dsl
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// Instead of providing patched DSDT/SSDT, just include a single SSDT
// and do the rest of the work in config.plist
// A bit experimental, and a bit more difficult with laptops, but
// still possible.
// Note: No solution for missing IAOE here, but so far, not a problem.
DefinitionBlock("", "SSDT", 2, "hack", "_HACK", 0)
{
External(_SB.PCI0, DeviceObj)
External(_SB.PCI0.LPCB, DeviceObj)
// All _OSI calls in DSDT are routed to XOSI...
// XOSI simulates "Windows 2012" (which is Windows 8)
// Note: According to ACPI spec, _OSI("Windows") must also return true
// Also, it should return true for all previous versions of Windows.
Method(XOSI, 1)
{
// simulation targets
// source: (google 'Microsoft Windows _OSI')
// http://download.microsoft.com/download/7/E/7/7E7662CF-CBEA-470B-A97E-CE7CE0D98DC2/WinACPI_OSI.docx
Store(Package()
{
"Windows", // generic Windows query
"Windows 2001", // Windows XP
"Windows 2001 SP2", // Windows XP SP2
//"Windows 2001.1", // Windows Server 2003
//"Windows 2001.1 SP1", // Windows Server 2003 SP1
"Windows 2006", // Windows Vista
"Windows 2006 SP1", // Windows Vista SP1
//"Windows 2006.1", // Windows Server 2008
"Windows 2009", // Windows 7/Windows Server 2008 R2
"Windows 2012", // Windows 8/Windows Server 2012
//"Windows 2013", // Windows 8.1/Windows Server 2012 R2
//"Windows 2015", // Windows 10/Windows Server TP
}, Local0)
Return (Ones != Match(Local0, MEQ, Arg0, MTR, 0, 0))
}
// Override for USBInjectAll.kext
Device(UIAC)
{
Name(_HID, "UIA00000")
Name(RMCF, Package()
{
// XHC overrides
"8086_8xxx", Package()
{
//"port-count", Buffer() { 0x15, 0, 0, 0 },
"ports", Package()
{
"HS01", Package()
{
"UsbConnector", 3,
"port", Buffer() { 0x01, 0, 0, 0 },
},
"HS02", Package()
{
"UsbConnector", 3,
"port", Buffer() { 0x02, 0, 0, 0 },
},
"HS05", Package() // touch screen
{
"UsbConnector", 255,
"port", Buffer() { 0x05, 0, 0, 0 },
},
"HS06", Package()
{
"UsbConnector", 255,
"port", Buffer() { 0x06, 0, 0, 0 },
},
"HS07", Package()
{
"UsbConnector", 255,
"port", Buffer() { 0x07, 0, 0, 0 },
},
"HS09", Package()
{
"UsbConnector", 0,
"port", Buffer() { 0x09, 0, 0, 0 },
},
"SS01", Package()
{
"UsbConnector", 3,
"port", Buffer() { 0x10, 0, 0, 0 },
},
"SS02", Package()
{
"UsbConnector", 3,
"port", Buffer() { 0x11, 0, 0, 0 },
},
},
},
})
}
//
// Disabling EHCI #1 (and EHCI #2)
//
External(_SB.PCI0.EH01, DeviceObj)
External(_SB.PCI0.EH02, DeviceObj)
Scope(_SB.PCI0)
{
// registers needed for disabling EHC#1
Scope(EH01)
{
OperationRegion(PSTS, PCI_Config, 0x54, 2)
Field(PSTS, WordAcc, NoLock, Preserve)
{
PSTE, 2 // bits 2:0 are power state
}
}
// registers needed for disabling EHC#1
Scope(EH02)
{
OperationRegion(PSTS, PCI_Config, 0x54, 2)
Field(PSTS, WordAcc, NoLock, Preserve)
{
PSTE, 2 // bits 2:0 are power state
}
}
Scope(LPCB)
{
OperationRegion(RMLP, PCI_Config, 0xF0, 4)
Field(RMLP, DWordAcc, NoLock, Preserve)
{
RCB1, 32, // Root Complex Base Address
}
// address is in bits 31:14
OperationRegion(FDM1, SystemMemory, (RCB1 & Not((1<<14)-1)) + 0x3418, 4)
Field(FDM1, DWordAcc, NoLock, Preserve)
{
,13, // skip first 13 bits
FDE2,1, // should be bit 13 (0-based) (FD EHCI#2)
,1,
FDE1,1, // should be bit 15 (0-based) (FD EHCI#1)
}
}
Device(RMD1)
{
//Name(_ADR, 0)
Name(_HID, "RMD10000")
Method(_INI)
{
// disable EHCI#1
// put EHCI#1 in D3hot (sleep mode)
^^EH01.PSTE = 3
// disable EHCI#1 PCI space
^^LPCB.FDE1 = 1
// disable EHCI#2
// put EHCI#2 in D3hot (sleep mode)
^^EH02.PSTE = 3
// disable EHCI#2 PCI space
^^LPCB.FDE2 = 1
}
}
}
//
// For disabling the discrete GPU
//
External(_SB.PCI0.PEG0.PEGP._OFF, MethodObj)
Device(RMD2)
{
Name(_HID, "RMD20000")
Method(_INI)
{
// disable discrete graphics (Nvidia/Radeon) if it is present
If (CondRefOf(\_SB.PCI0.PEG0.PEGP._OFF)) { \_SB.PCI0.PEG0.PEGP._OFF() }
}
}
//
// Display backlight implementation
//
// From SSDT-PNLF.dsl
// Adding PNLF device for IntelBacklight.kext or AppleBacklight.kext+AppleBacklightFixup.kext
#define SANDYIVY_PWMMAX 0x710
#define HASWELL_PWMMAX 0xad9
#define SKYLAKE_PWMMAX 0x56c
External(RMCF.BKLT, IntObj)
External(RMCF.LMAX, IntObj)
External(_SB.PCI0.IGPU, DeviceObj)
Scope(_SB.PCI0.IGPU)
{
// need the device-id from PCI_config to inject correct properties
OperationRegion(IGD5, PCI_Config, 0, 0x14)
}
// For backlight control
Device(_SB.PCI0.IGPU.PNLF)
{
Name(_ADR, Zero)
Name(_HID, EisaId ("APP0002"))
Name(_CID, "backlight")
// _UID is set depending on PWMMax
// 14: Sandy/Ivy 0x710
// 15: Haswell/Broadwell 0xad9
// 16: Skylake/KabyLake 0x56c (and some Haswell, example 0xa2e0008)
// 99: Other
Name(_UID, 0)
Name(_STA, 0x0B)
// IntelBacklight.kext configuration
Name(RMCF, Package()
{
"PWMMax", 0,
})
Field(^IGD5, AnyAcc, NoLock, Preserve)
{
Offset(0x02), GDID,16,
Offset(0x10), BAR1,32,
}
OperationRegion(RMB1, SystemMemory, BAR1 & ~0xF, 0xe1184)
Field(RMB1, AnyAcc, Lock, Preserve)
{
Offset(0x48250),
LEV2, 32,
LEVL, 32,
Offset(0x70040),
P0BL, 32,
Offset(0xc8250),
LEVW, 32,
LEVX, 32,
Offset(0xe1180),
PCHL, 32,
}
Method(_INI)
{
// IntelBacklight.kext takes care of this at load time...
// If RMCF.BKLT does not exist, it is assumed you want to use AppleBacklight.kext...
If (CondRefOf(\RMCF.BKLT)) { If (1 != \RMCF.BKLT) { Return } }
// Adjustment required when using AppleBacklight.kext
Local0 = GDID
Local2 = Ones
if (CondRefOf(\RMCF.LMAX)) { Local2 = \RMCF.LMAX }
If (Ones != Match(Package()
{
// Sandy
0x0116, 0x0126, 0x0112, 0x0122,
// Ivy
0x0166, 0x016a,
// Arrandale
0x42, 0x46
}, MEQ, Local0, MTR, 0, 0))
{
// Sandy/Ivy
if (Ones == Local2) { Local2 = SANDYIVY_PWMMAX }
// change/scale only if different than current...
Local1 = LEVX >> 16
If (!Local1) { Local1 = Local2 }
If (Local2 != Local1)
{
// set new backlight PWMMax but retain current backlight level by scaling
Local0 = (LEVL * Local2) / Local1
//REVIEW: wait for vblank before setting new PWM config
//For (Local7 = P0BL, P0BL == Local7, ) { }
Local3 = Local2 << 16
If (Local2 > Local1)
{
// PWMMax is getting larger... store new PWMMax first
LEVX = Local3
LEVL = Local0
}
Else
{
// otherwise, store new brightness level, followed by new PWMMax
LEVL = Local0
LEVX = Local3
}
}
}
Else
{
// otherwise... Assume Haswell/Broadwell/Skylake
if (Ones == Local2)
{
// check Haswell and Broadwell, as they are both 0xad9 (for most common ig-platform-id values)
If (Ones != Match(Package()
{
// Haswell
0x0d26, 0x0a26, 0x0d22, 0x0412, 0x0416, 0x0a16, 0x0a1e, 0x0a1e, 0x0a2e, 0x041e, 0x041a,
// Broadwell
0x0BD1, 0x0BD2, 0x0BD3, 0x1606, 0x160e, 0x1616, 0x161e, 0x1626, 0x1622, 0x1612, 0x162b,
}, MEQ, Local0, MTR, 0, 0))
{
Local2 = HASWELL_PWMMAX
}
Else
{
// assume Skylake/KabyLake, both 0x56c
// 0x1916, 0x191E, 0x1926, 0x1927, 0x1912, 0x1932, 0x1902, 0x1917, 0x191b,
// 0x5916, 0x5912, 0x591b, others...
Local2 = SKYLAKE_PWMMAX
}
}
// This 0xC value comes from looking what OS X initializes this\n
// register to after display sleep (using ACPIDebug/ACPIPoller)\n
LEVW = 0xC0000000
// change/scale only if different than current...
Local1 = LEVX >> 16
If (!Local1) { Local1 = Local2 }
If (Local2 != Local1)
{
// set new backlight PWMAX but retain current backlight level by scaling
Local0 = (((LEVX & 0xFFFF) * Local2) / Local1) | (Local2 << 16)
//REVIEW: wait for vblank before setting new PWM config
//For (Local7 = P0BL, P0BL == Local7, ) { }
LEVX = Local0
}
}
// Now Local2 is the new PWMMax, set _UID accordingly
// The _UID selects the correct entry in AppleBacklightFixup.kext
If (Local2 == SANDYIVY_PWMMAX) { _UID = 14 }
ElseIf (Local2 == HASWELL_PWMMAX) { _UID = 15 }
ElseIf (Local2 == SKYLAKE_PWMMAX) { _UID = 16 }
Else { _UID = 99 }
}
}
//
// Standard Injections/Fixes
//
Scope(_SB.PCI0)
{
Device(IMEI)
{
Name (_ADR, 0x00160000)
}
Device(SBUS.BUS0)
{
Name(_CID, "smbus")
Name(_ADR, Zero)
Device(DVL0)
{
Name(_ADR, 0x57)
Name(_CID, "diagsvault")
Method(_DSM, 4)
{
If (!Arg2) { Return (Buffer() { 0x03 } ) }
Return (Package() { "address", 0x57 })
}
}
}
}
//
// Keyboard/Trackpad
//
External(_SB.PCI0.LPCB.PS2K, DeviceObj)
Scope (_SB.PCI0.LPCB.PS2K)
{
// Select specific keyboard map in VoodooPS2Keyboard.kext
Method(_DSM, 4)
{
If (!Arg2) { Return (Buffer() { 0x03 } ) }
Return (Package()
{
"RM,oem-id", "LENOVO",
"RM,oem-table-id", "Y50-RMCF",
})
}
Name(RMCF, Package()
{
"Controller", Package()
{
"WakeDelay", 0,
},
"Sentelic FSP", Package()
{
"DisableDevice", ">y",
},
"ALPS GlidePoint", Package()
{
"DisableDevice", ">y",
},
"Synaptics TouchPad", Package()
{
"MultiFingerVerticalDivisor", 9,
"MultiFingerHorizontalDivisor", 9,
"MomentumScrollThreshY", 12,
"DynamicEWMode", ">y",
},
"Keyboard", Package()
{
"Breakless PS2", Package()
{
Package(){}, //indicating array
"e06a", //F3
"e06b", //F9
"e06c", //F10
"e06d", //F11
},
"MaximumMacroTime", 25000000,
"Macro Inversion", Package()
{
Package(){},
//F3
Buffer() { 0xff, 0xff, 0x02, 0x6a, 0x00, 0x00, 0x00, 0x00, 0x02, 0x5b, 0x01, 0x19 }, //e06a
Buffer() { 0xff, 0xff, 0x02, 0xea, 0x00, 0x00, 0x00, 0x00, 0x01, 0x99, 0x02, 0xdb }, //e0ea
//F9
Buffer() { 0xff, 0xff, 0x02, 0x6b, 0x00, 0x00, 0x00, 0x00, 0x02, 0x5b, 0x01, 0x17 }, //e06b
Buffer() { 0xff, 0xff, 0x02, 0xeb, 0x00, 0x00, 0x00, 0x00, 0x01, 0x97, 0x02, 0xdb }, //e0eb
//F10
Buffer() { 0xff, 0xff, 0x02, 0x6c, 0x00, 0x00, 0x00, 0x00, 0x02, 0x5b, 0x01, 0x21 }, //e06c
Buffer() { 0xff, 0xff, 0x02, 0xec, 0x00, 0x00, 0x00, 0x00, 0x01, 0xa1, 0x02, 0xdb }, //e0ec
//F11
Buffer() { 0xff, 0xff, 0x02, 0x6d, 0x00, 0x00, 0x00, 0x00, 0x01, 0x38, 0x01, 0x1d, 0x01, 0x0f }, //e06d
Buffer() { 0xff, 0xff, 0x02, 0xed, 0x00, 0x00, 0x00, 0x00, 0x01, 0xb8, 0x01, 0x9d, 0x01, 0x8f }, //e0ed
},
"Custom ADB Map", Package()
{
Package(){},
"e06a=6a", //FnF3 = F16
"e06b=40", //FnF9 = F17
"e06c=4f", //FnF10 = F18
"e06d=50", //FnF11 = F19
},
"Custom PS2 Map", Package()
{
Package(){},
"e037=64", // PrtSc=F13
},
"Function Keys Special", Package()
{
Package(){},
// The following 12 items map Fn+fkeys to Fn+fkeys, Y50 and u430 differ
"e05f=e05f", //F1
//F2 missing
"e06a=e06a", //F3
//F4 no Fn
//F5 missing
"e073=e037", //F6
//F7 no Fn
//F8 no Fn
"e06b=e06b", //F9
"e06c=e06c", //F10
"e06d=e06d", //F11
//F12 no Fn
// The following 12 items map fkeys to fkeys, Y50 and u430 are the same
"3b=3b",
"3c=3c",
"3d=3d",
"3e=3e",
"3f=3f",
"40=40",
"41=41",
"42=42",
"43=43",
"44=44",
"57=57",
"58=58",
},
"Function Keys Standard", Package()
{
Package(){},
// The following 12 items map Fn+fkeys to fkeys
"e05f=3b", //F1
//F2 missing
"e06a=3d", //F3
//F4 no Fn
//F5 missing
"e073=40", //F6
//F7 no Fn
//F8 no Fn
"e06b=43", //F9, F10 complex
"e06c=44", //F10 macro
"e06d=57", //F11 macro
//F12 no Fn
// The following 12 items map fkeys to Fn+fkeys
"3b=e05f", //F1
//F2 missing
"3d=e06a", //F3
//F4 no Fn
//F5 missing
"40=e037", //F6
//F7 no Fn
//F8 no Fn
"43=e06b", //F9, F10 complex
"44=e06c", //F10 macro
"57=e06d", //F11 macro
//F12 no Fn
},
},
})
}
External(_SB.PCI0.LPCB.EC, DeviceObj)
External(TPDF, FieldUnitObj)
Scope(_SB.PCI0.LPCB.EC)
{
// The native _Qxx methods in DSDT are renamed XQxx,
// so notifications from the EC driver will land here.
// _Q11 called on brightness down key
Method(_Q11)
{
// Brightness Down
If (LNotEqual(TPDF,0x08))
{
// Synaptics/ALPS
Notify(\_SB.PCI0.LPCB.PS2K, 0x0405)
}
Else
{
// Other(ELAN)
Notify(\_SB.PCI0.LPCB.PS2K, 0x20)
}
}
//_Q12 called on brightness up key
Method(_Q12)
{
// Brightness Up
If (LNotEqual(TPDF,0x08))
{
// Synaptics/ALPS
Notify(\_SB.PCI0.LPCB.PS2K, 0x0406)
}
Else
{
// Other(ELAN)
Notify(\_SB.PCI0.LPCB.PS2K, 0x10)
}
}
}
//
// Battery Status
//
// Override for ACPIBatteryManager.kext
External(_SB.PCI0.LPCB.BAT1, DeviceObj)
Name(_SB.PCI0.LPCB.BAT1.RMCF, Package()
{
"StartupDelay", 10,
})
Scope(_SB.PCI0.LPCB.EC)
{
// This is an override for battery methods that access EC fields
// larger than 8-bit.
External(ERBD, FieldUnitObj)
OperationRegion (RMEC, EmbeddedControl, 0x5D, 2)
Field (RMEC, ByteAcc, Lock, Preserve)
{
ERI0,8,ERI1,8,
}
External(FAMX, MutexObj)
// FANG and FANW are renamed to XANG and XANW
// calls to them will land here
Method (FANG, 1, NotSerialized)
{
Acquire (FAMX, 0xFFFF)
Store(Arg0, ERI0) Store(ShiftRight(Arg0, 8), ERI1)
Store (ERBD, Local0)
Release (FAMX)
Return (Local0)
}
Method (FANW, 2, NotSerialized)
{
Acquire (FAMX, 0xFFFF)
Store(Arg0, ERI0) Store(ShiftRight(Arg0, 8), ERI1)
Store (Arg1, ERBD)
Release (FAMX)
Return (Arg1)
}
Method (\B1B2, 2, NotSerialized) { Return (Or (Arg0, ShiftLeft (Arg1, 8))) }
Method (WE1B, 2, Serialized)
{
OperationRegion(ERAM, EmbeddedControl, Arg0, 1)
Field(ERAM, ByteAcc, NoLock, Preserve) { BYTE, 8 }
Store(Arg1, BYTE)
}
Method (WECB, 3, Serialized)
// Arg0 - offset in bytes from zero-based EC
// Arg1 - size of buffer in bits
// Arg2 - value to write
{
ShiftRight(Arg1, 3, Arg1)
Name(TEMP, Buffer(Arg1) { })
Store(Arg2, TEMP)
Add(Arg0, Arg1, Arg1)
Store(0, Local0)
While (LLess(Arg0, Arg1))
{
WE1B(Arg0, DerefOf(Index(TEMP, Local0)))
Increment(Arg0)
Increment(Local0)
}
}
Method (RE1B, 1, Serialized)
{
OperationRegion(ERAM, EmbeddedControl, Arg0, 1)
Field(ERAM, ByteAcc, NoLock, Preserve) { BYTE, 8 }
Return(BYTE)
}
Method (RECB, 2, Serialized)
// Arg0 - offset in bytes from zero-based EC
// Arg1 - size of buffer in bits
{
ShiftRight(Arg1, 3, Arg1)
Name(TEMP, Buffer(Arg1) { })
Add(Arg0, Arg1, Arg1)
Store(0, Local0)
While (LLess(Arg0, Arg1))
{
Store(RE1B(Arg0), Index(TEMP, Local0))
Increment(Arg0)
Increment(Local0)
}
Return(TEMP)
}
External(CTSL, PkgObj)
External(CFMX, MutexObj)
External(\SMID, FieldUnitObj)
External(\SMIC, FieldUnitObj)
External(\SFNO, FieldUnitObj)
External(\BFDT, FieldUnitObj)
External(\CAVR, FieldUnitObj)
External(\STDT, FieldUnitObj)
External(SMAD, FieldUnitObj)
External(SMCM, FieldUnitObj)
External(SMPR, FieldUnitObj)
External(SMST, FieldUnitObj)
External(\P80H, FieldUnitObj)
External(BCNT, FieldUnitObj)
// CFUN is renamed XFUN
// calls to it will land here
Method (CFUN, 4, Serialized)
{
Store(Arg3, Local0) //REVIEW: just to remove the warning (Arg3 is not used)
Name (ESRC, 0x05)
If (LNotEqual (Match (CTSL, MEQ, DerefOf (Index (Arg0, Zero)), MTR,
Zero, Zero), Ones))
{
Acquire (CFMX, 0xFFFF)
Store (Arg0, SMID)
Store (Arg1, SFNO)
Store (Arg2, BFDT)
Store (0xCE, SMIC)
Release (CFMX)
}
Else
{
If (LEqual (DerefOf (Index (Arg0, Zero)), 0x10))
{
If (LEqual (DerefOf (Index (Arg1, Zero)), One))
{
CreateByteField (Arg2, Zero, CAPV)
Store (CAPV, CAVR)
Store (One, STDT)
}
Else
{
If (LEqual (DerefOf (Index (Arg1, Zero)), 0x02))
{
Store (Buffer (0x80) {}, Local0)
CreateByteField (Local0, Zero, BFD0)
Store (0x11, BFD0)
Store (One, STDT)
Store (Local0, BFDT)
}
Else
{
Store (Zero, STDT)
}
}
}
Else
{
If (LEqual (DerefOf (Index (Arg0, Zero)), 0x18))
{
Acquire (CFMX, 0xFFFF)
If (LEqual (DerefOf (Index (Arg1, Zero)), 0x02))
{
WECB(0x64,256,Zero)
Store (DerefOf (Index (Arg2, One)), SMAD)
Store (DerefOf (Index (Arg2, 0x02)), SMCM)
Store (DerefOf (Index (Arg2, Zero)), SMPR)
While (LAnd (Not (LEqual (ESRC, Zero)), Not (LEqual (And (SMST, 0x80), 0x80))))
{
Sleep (0x14)
Subtract (ESRC, One, ESRC)
}
Store (SMST, Local2)
If (LEqual (And (Local2, 0x80), 0x80))
{
Store (Buffer (0x80) {}, Local1)
Store (Local2, Index (Local1, Zero))
If (LEqual (Local2, 0x80))
{
Store (0xC4, P80H)
Store (BCNT, Index (Local1, One))
Store (RECB(0x64,256), Local3)
Store (DerefOf (Index (Local3, Zero)), Index (Local1, 0x02))
Store (DerefOf (Index (Local3, One)), Index (Local1, 0x03))
Store (DerefOf (Index (Local3, 0x02)), Index (Local1, 0x04))
Store (DerefOf (Index (Local3, 0x03)), Index (Local1, 0x05))
Store (DerefOf (Index (Local3, 0x04)), Index (Local1, 0x06))
Store (DerefOf (Index (Local3, 0x05)), Index (Local1, 0x07))
Store (DerefOf (Index (Local3, 0x06)), Index (Local1, 0x08))
Store (DerefOf (Index (Local3, 0x07)), Index (Local1, 0x09))
Store (DerefOf (Index (Local3, 0x08)), Index (Local1, 0x0A))
Store (DerefOf (Index (Local3, 0x09)), Index (Local1, 0x0B))
Store (DerefOf (Index (Local3, 0x0A)), Index (Local1, 0x0C))
Store (DerefOf (Index (Local3, 0x0B)), Index (Local1, 0x0D))
Store (DerefOf (Index (Local3, 0x0C)), Index (Local1, 0x0E))
Store (DerefOf (Index (Local3, 0x0D)), Index (Local1, 0x0F))
Store (DerefOf (Index (Local3, 0x0E)), Index (Local1, 0x10))
Store (DerefOf (Index (Local3, 0x0F)), Index (Local1, 0x11))
Store (DerefOf (Index (Local3, 0x10)), Index (Local1, 0x12))
Store (DerefOf (Index (Local3, 0x11)), Index (Local1, 0x13))
Store (DerefOf (Index (Local3, 0x12)), Index (Local1, 0x14))
Store (DerefOf (Index (Local3, 0x13)), Index (Local1, 0x15))
Store (DerefOf (Index (Local3, 0x14)), Index (Local1, 0x16))
Store (DerefOf (Index (Local3, 0x15)), Index (Local1, 0x17))
Store (DerefOf (Index (Local3, 0x16)), Index (Local1, 0x18))
Store (DerefOf (Index (Local3, 0x17)), Index (Local1, 0x19))
Store (DerefOf (Index (Local3, 0x18)), Index (Local1, 0x1A))
Store (DerefOf (Index (Local3, 0x19)), Index (Local1, 0x1B))
Store (DerefOf (Index (Local3, 0x1A)), Index (Local1, 0x1C))
Store (DerefOf (Index (Local3, 0x1B)), Index (Local1, 0x1D))
Store (DerefOf (Index (Local3, 0x1C)), Index (Local1, 0x1E))
Store (DerefOf (Index (Local3, 0x1D)), Index (Local1, 0x1F))
Store (DerefOf (Index (Local3, 0x1E)), Index (Local1, 0x20))
Store (DerefOf (Index (Local3, 0x1F)), Index (Local1, 0x21))
}
Store (Local1, BFDT)
Store (One, STDT)
}
Else
{
Store (0xC5, P80H)
Store (Zero, STDT)
}
}
Else
{
Store (0xC6, P80H)
Store (Zero, STDT)
}
Release (CFMX)
}
Else
{
Store (Zero, STDT)
}
}
}
}
}
}
//EOF