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AMI_0ACCT032
2018-06-21 00:06:56 -07:00
#**********************************************************************
#**********************************************************************
#** **
#** (C)Copyright 1985-2012, American Megatrends, Inc. **
#** **
#** All Rights Reserved. **
#** **
#** 5555 Oakbrook Pkwy, Suite 200, Norcross, GA 30093 **
#** **
#** Phone: (770)-246-8600 **
#** **
#**********************************************************************
#**********************************************************************
#
#**********************************************************************
# $Header: $
#
# $Revision: $
#
# $Date: $
#**********************************************************************
#<AMI_FHDR_START>
#-----------------------------------------------------------------------
#
# Name: CmosBoard.sdl
#
# Description: This AMI SDL file defines porting constants used in
# the CMOS Board subcomponent.
#
#-----------------------------------------------------------------------
#<AMI_FHDR_END>
#
#============================================================================
# Southbridge porting notes
#============================================================================
#
# These tokens are included as an example of tokens to add to the
# Southbridge module for implementing access to CMOS banks above
# 0x7f.
#
#TOKEN
# Name = "CMOS_BANK1_INDEX"
# Value = "0x72"
# Help = "Index port to access the second CMOS bank. \(Registers in range: 0x80-0xff)"
# TokenType = Integer
# TargetEQU = Yes
# TargetH = Yes
#End
#
#TOKEN
# Name = "CMOS_BANK1_DATA"
# Value = "0x73"
# Help = "Data port to access the second CMOS bank. \(Registers in range: 0x80-0xff)"
# TokenType = Integer
# TargetEQU = Yes
# TargetH = Yes
#End
#
#TOKEN
# Name = "CMOS_BANK1_INDEX_IS_TRANSLATED"
# Value = "1"
# Help = "1 = Index port value requires translation from CMOS address.\0 = Index port value equals CMOS address."
# TokenType = Boolean
# TargetEQU = Yes
# TargetH = Yes
#End
#ELINK
# Name = "{0, 0, 0x80, 0xff, ReadWriteSecondBankTranslated},"
# Parent = "CMOS_PORT_MAPPING"
# Help = "Second bank CMOS access range (Registers in range: 0x80-0xff), when index port value is not identical to CMOS address"
# InvokeOrder = AfterParent
# Token = "CMOS_BANK1_INDEX_IS_TRANSLATED" "=" "1"
#End
#
#ELINK
# Name = "{CMOS_BANK1_INDEX, CMOS_BANK1_DATA, 0x80, 0xff, NULL},"
# Parent = "CMOS_PORT_MAPPING"
# Help = "Second bank CMOS access range (Registers in range: 0x80-0xff), when index port value is identical to CMOS address"
# InvokeOrder = AfterParent
# Token = "CMOS_BANK1_INDEX_IS_TRANSLATED" "=" "0"
#End
#============================================================================
#<AMI_GHDR_START>
#----------------------------------------------------------------------------
#
# Name: All_Elinks_Tokens
#
# Description:
# The following files contain the SDL Tokens/Elinks
# used in the CMOS Manager module, which may be ported.
#
# CmosBoard.sdl -- SDL Tokens/Elinks typically
# used for project-specific porting
#
# CmosManager.sdl -- SDL Tokens/Elinks typically
# not modified
#
#----------------------------------------------------------------------------
#<AMI_GHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: FULL_CMOS_MANAGER_DEBUG
#
# Description:
#
# Default value is 0
#
# 1 = Turn on all available CMOS Manager debug messages,
# resulting in larger build.
# 0 = Only basic debugging messages are displayed,
# dependent upon project-level debug settings.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: FIRST_MANAGED_CMOS_ADDRESS
#
# Description:
#
# Default value is 0x40
#
# This is the lower limit of the CMOS register range to be managed
# by CMOS Manager
#
# The region starting at FIRST_MANAGED_CMOS_ADDRESS and ending at
# MAX_MANAGED_CMOS_ADDRESS - 1 represents the managed region.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: MAX_MANAGED_CMOS_ADDRESS
#
# Description:
#
# Default value is 128 (128 bytes with max address of 127)
#
# This is the upper limit (last address + 1) of CMOS address locations
# that are managed by CMOS Manager.
#
# (I.e., if 256 bytes of CMOS is available and is entirely managed
# by CMOS Manager, then the value of this token would be 256.)
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_MGR_RECOVER_ONLY_CHECKUMMED
#
# Description:
#
# Default value is 0 (all Managed Region locations are recovered)
#
# 1 = Do not recover non-checksummed locations in the
# Managed Region
#
# 0 = Recover all locations in the Managed Region
#
# This configures the recovery policy so that the Optimal Defaults
# buffer is only used for checksummed locations upon bad checksum
# detection.
#
# Notes:
# 1. For the bad battery condition, the Optimal Defaults buffer
# will always be used.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_MGR_RECOVER_IN_PEI
#
# Description:
#
# Default value is 1 (PEI recovery is enabled)
#
# This configures the recovery policy so that the Optimal Defaults
# buffer is written to CMOS in the PEI phase.
#
# Notes:
# 1. This setting may require replacement of the
# default function defined in the CMOS_IS_COLD_BOOT_MAPPING
# eLink.
#
# 2. The bad checksum bit in the legacy status CMOS register
# will indicate bad checksum until the DXE phase, but
# physical CMOS will be used in the PEI phase.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_SMM_SUPPORT
#
# Description:
#
# Default value is 1 (SMM support is enabled)
#
# This token specifies whether or not the CMOS Access interface is
# available in SMM.
#
# 1 = Enable SMM CMOS Access
# 0 = Disable SMM CMOS Access
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_USES_STANDARD_RANGE_ACCESS
#
# Description:
#
# Default value is 1 (default function is enabled)
#
# Specifies whether or not to use CMOS Manager's default access
# function for the 0-0x7f range. If a platform provides a different
# access function for this region this token should be FALSE.
#
# Notes:
# * If this SDL Token is turned off, an alternate
# function must be defined using the CMOS_PORT_MAPPING
# SDL eLink.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_BANK0_INDEX
#
# Description:
#
# Default value is 0x70
#
# Index I/O port to access CMOS registers in range: 0x0-0x7f.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_BANK0_DATA
#
# Description:
#
# Default value is 0x71
#
# Data I/O port to access CMOS registers in range: 0x0-0x7f.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_MGR_SET_NMI_BIT
#
# Description:
#
# Default value is 1 (NMI access is enabled for 0x0-0x7f)
#
# 1 = Set NMI bit for access to NMI region
# 0 = Do not set NMI bit for access to NMI region
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_NMI_BIT_VALUE
#
# Description:
#
# Default value is 0x80 (CMOS_MGR_SET_NMI_BIT = TRUE by default)
#
# There are two possible values for this token as determined by the
# value of CMOS_MGR_SET_NMI_BIT:
#
# 0x80 = if CMOS_MGR_SET_NMI_BIT == TRUE
# 0x00 = if CMOS_MGR_SET_NMI_BIT == FALSE
#
# Notes:
#
# This value will be OR'ed with the index value for CMOS access to
# bank 0 locations. The value will be negated and AND'ed with the
# index to clear the NMI bit if the original index value is to be
# restored.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_SETUP_SUPPORT
#
# Description:
#
# Default value is 0 (CMOS_SETUP_SUPPORT = FALSE by default)
#
# This token specifies whether or not a setup page is enabled
# to provide CMOS Manager related information/options.
#
# Notes:
#
# This feature is only supported for TSE labels only supported for
# TSE versions 4.6.2_TSE_2_01_1204 and later.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_MESSAGES_SUPPORT
#
# Description:
#
# Default value is 0 (CMOS_SETUP_SUPPORT = FALSE by default)
#
# This token specifies whether or not messages are displayed
# to provide CMOS Manager related power-on information.
#
# Notes:
#
# This feature is only supported for TSE labels only supported for
# TSE versions 4.6.2_TSE_2_01_1204 and later.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_USES_STANDARD_BATTERY_TEST
#
# Description:
#
# Default value is 1 (default function is used)
#
# This SDL Token specifies whether or not to use the default function
# to determine whether or not the CMOS battery is good.
#
# Notes:
# If this SDL Token is turned off, an alternate function must be
# defined and linked using the CMOS_BATTERY_TEST_MAPPING SDL eLink.
#
# The default function eLink is CmosMgrBatteryIsGood.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_USES_STANDARD_IS_FIRST_BOOT
#
# Description:
#
# Default value is 1 (default function is used)
#
# This SDL Token specifies whether or not to use the default function
# to determine whether or not the platform is executing a first boot.
#
# Notes:
# If this SDL Token is turned off, an alternate function must be
# defined using the CMOS_IS_FIRST_BOOT_MAPPING SDL eLink.
#
# The default function eLink is CmosMgrIsFirstBoot.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_USES_STANDARD_IS_CMOS_USABLE
#
# Description:
#
# Default value is 1 (default function is used)
#
# This SDL Token specifies whether or not to use the default function
# to determine whether or not the CMOS hardware is usable.
# If a platform provides a different function, this token should be
# disabled.
#
# Notes:
# If this SDL Token is turned off, an alternate function must be
# defined using the CMOS_IS_USABLE_MAPPING SDL eLink.
#
# The default function eLink is CmosMgrIsBsp.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_USES_STANDARD_IS_BSP
#
# Description:
#
# Default value is 1 (default function is used)
#
# This SDL Token specifies whether or not to use the default function
# to determine whether or not the boot strap processor is executing.
# If a platform provides a different function for determining the BSP,
# this token should be disabled.
#
# Notes:
# If this SDL Token is turned off, an alternate function must be
# defined using the CMOS_IS_BSP_MAPPING SDL eLink.
#
# The default function eLink is CmosMgrIsBsp.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_USES_STANDARD_IS_COLD_BOOT
#
# Description:
#
# Default value is 1 (default function is used)
#
# This SDL Token specifies whether or not to use the default function
# to determine whether or not the platform is executing a cold boot.
#
# Notes:
#
# 1. The default function eLink is CmosMgrIsColdBoot.
#
# 2. In the case of a bad checksum, the Optimal Defaults buffer
# is written to physical CMOS in the PEI phase if:
#
# a. CMOS_MGR_RECOVER_IN_PEI is enabled and
# b. CmosMgrIsColdBoot returns TRUE
#
# 3. Some platforms may execute a warm-reset in the PEI phase,
# with a dependency on some CMOS value, causing
# unpredicatable results ...possibly an infinite reboot
# sequence.
#
# 4. A cold boot is defined as a power-on boot, as opposed
# to a warm boot where a reset is initiated through
# software.
#
# 5. If this SDL Token is turned off, an alternate function
# must be defined using the CMOS_IS_COLD_BOOT_MAPPING
# SDL eLink.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_PORT_MAPPING
#
# Description:
#
# Default value (see Notes below)
#
# This Elink is used to associate CMOS register address ranges with
# an 8-bit index/data port pair or an access function.
#
# Additional ranges can be specified by adding additional eLinks.
#
# The default eLink for the 0x0-0x7f range can be replaced by first
# disabling the CMOS_USES_STANDARD_RANGE_ACCESS SDL token and then
# defining a new eLink.
#
# Notes:
# Format:
#
# {IndexPort, DataPort, LowIndex, HighIndex, FunctionName},
#
# Default:
#
# ELINK
# Name = "{0, 0, 0, 127, ReadWriteStandardRange},"
# Parent = "CMOS_PORT_MAPPING"
# Help = "Standard NMI-capable access range"
# Token = "CMOS_USES_STANDARD_RANGE_ACCESS" "=" "1"
# InvokeOrder = AfterParent
# End
#
# * FunctionName takes precedence over IndexPort/DataPort, if
# both are specified.
#
# * The comma is required.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_BATTERY_TEST_MAPPING
#
# Description:
#
# The default function is CmosMgrBatteryIsGood.
#
# This SDL eLink provides a mechanism to replace the default function
# for determining whether or not the battery is bad.
#
# Notes:
# To override the default function, set the
# CMOS_USES_STANDARD_BATTERY_TEST SDL Token to false and define a
# new eLink.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_IS_USABLE_MAPPING
#
# Description:
#
# The default function is CmosIsUsable.
#
# This SDL eLink provides a mechanism to replace the default function
# for determining whether or not the CMOS hardware is usable. (Note,
# the CMOS may be usable even if the battery is bad.)
#
# Notes:
# To override the default function, set the
# CMOS_USES_STANDARD_IS_CMOS_USABLE SDL Token to FALSE (0) and define a
# new eLink.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_IS_FIRST_BOOT_MAPPING
#
# Description:
#
# The default function is CmosMgrIsFirstBoot.
#
# This SDL eLink provides a mechanism to replace the default function
# for determining whether or not the current execution is the first
# boot after programming the boot firmware device (flash part, ROM
# emulator, ...).
#
# Notes:
# To override the default function, set the
# CMOS_USES_STANDARD_IS_FIRST_BOOT SDL Token to FALSE (0) and define a
# new eLink.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_IS_BSP_MAPPING
#
# Description:
#
# The default function is CmosMgrIsBsp.
#
# This SDL eLink provides a mechanism to replace the default function
# for determining whether or not the currently executing CPU core is
# the boot strap processor (BSP).
#
# Notes:
# To override the default function, set the
# CMOS_USES_STANDARD_IS_BSP SDL Token to FALSE (0) and define a
# new eLink.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
#<AMI_SHDR_START>
#----------------------------------------------------------------------------
#
# Name: CMOS_IS_COLD_BOOT_MAPPING
#
# Description:
#
# The default function is CmosMgrIsColdBoot.
#
# This SDL eLink provides a mechanism to replace the default function
# for determining whether or not the platform is executing a cold
# boot.
#
# Notes:
# To override the default function, set the
# CMOS_USES_STANDARD_IS_COLD_BOOT SDL Token to FALSE (0) and define a
# new eLink.
#
#----------------------------------------------------------------------------
#<AMI_SHDR_END>
TOKEN
Name = "FULL_CMOS_MANAGER_DEBUG"
Value = "0"
Help = "1-Turns on all available CMOS Manager module-level debug messages, resulting in larger build\0-Only basic debugging messages are supported, dependent upon project-level debug settings."
TokenType = Boolean
TargetH = Yes
End
TOKEN
Name = "FIRST_MANAGED_CMOS_ADDRESS"
Value = "0x40"
Help = "This is the lower limit of the CMOS register range to be managed by CMOS Manager. \\Note: the region starting at FIRST_MANAGED_CMOS_ADDRESS and ending at MAX_MANAGED_CMOS_ADDRESS - 1 represents the managed region."
TokenType = Integer
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "MAX_MANAGED_CMOS_ADDRESS"
Value = "128"
Help = "Last CMOS address + 1 used to specify the maximum address that is managed by CMOS Manager. \\Note: the region starting at FIRST_MANAGED_CMOS_ADDRESS and ending at MAX_MANAGED_CMOS_ADDRESS - 1 represents the managed region."
TokenType = Integer
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_MGR_RECOVER_ONLY_CHECKUMMED"
Value = "0"
Help = "Upon incoherency detection in the Managed Region, only use the Optimal Defaults buffer for checksummed locations."
TokenType = Boolean
TargetH = Yes
End
TOKEN
Name = "CMOS_MGR_RECOVER_IN_PEI"
Value = "1"
Help = "Upon incoherency detection due to bad checksum in the Managed Region, invoke the recovery policy in the PEI phase."
TokenType = Boolean
TargetH = Yes
End
TOKEN
Name = "CMOS_SEC_SUPPORT"
Value = "0"
Help = "Specifies whether or not to the CMOS Access interface is available in SMM."
TokenType = Boolean
TargetEQU = Yes
TargetH = Yes
TargetMAK = Yes
End
TOKEN
Name = "CMOS_SMM_SUPPORT"
Value = "0"
Help = "Specifies whether or not to the CMOS Access interface is available in SMM."
TokenType = Boolean
TargetEQU = Yes
TargetH = Yes
TargetMAK = Yes
End
TOKEN
Name = "CMOS_MANAGER_ASL_SUPPORT"
Value = "0"
Help = "Enable ASL support for CMOS Manager as a CMOS device. (Requires CMOS_SMM_SUPPORT.)"
TokenType = Boolean
TargetMAK = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_USES_STANDARD_RANGE_ACCESS"
Value = "1"
Help = "Specifies whether or not to use CMOS Manager's default access function for the 0-0x7f range. If a platform provides a different access function for this region this token should be disabled."
TokenType = Boolean
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_BANK0_INDEX"
Value = "0x70"
Help = "Index I/O port to access CMOS registers in range: 0x0-0x7f."
TokenType = Integer
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_BANK0_DATA"
Value = "0x71"
Help = "Data I/O port to access CMOS registers in range: 0x0-0x7f."
TokenType = Integer
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_BANK1_INDEX"
Value = "0x72"
Help = "Index I/O port to access CMOS registers in range: 0x80-0xff."
TokenType = Integer
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_BANK1_DATA"
Value = "0x73"
Help = "Data I/O port to access CMOS registers in range: 0x80-0xff."
TokenType = Integer
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_BANK1_OFFSET"
Value = "0"
Help = "Value to be subtracted from CMOS address location when CMOS accesses BANK1.\(In some chipsets, bit 7 must not be touched for bank 1.)"
TokenType = Integer
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_MGR_SET_NMI_BIT"
Value = "1"
Help = "1-Set NMI bit for access to NMI region\0-Do not set NMI bit for access to NMI region"
TokenType = Boolean
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_NMI_BIT_VALUE"
Value = "0x80"
Help = "Value to be ORed with the index port value for BANK0 access, when NMI access is enabled."
TokenType = Integer
TargetEQU = Yes
TargetH = Yes
Token = "CMOS_MGR_SET_NMI_BIT" "=" "1"
End
TOKEN
Name = "CMOS_NMI_BIT_VALUE"
Value = "0x0"
Help = "Value to be ORed with the index port value for BANK0 access, when NMI access is disabled."
TokenType = Integer
TargetEQU = Yes
TargetH = Yes
Token = "CMOS_MGR_SET_NMI_BIT" "=" "0"
End
TOKEN
Name = "CMOS_BASED_API_SUPPORT"
Value = "1"
Help = "Specifies whether or not the 32-bit mode CMOS Access interface pointer is saved to CMOS."
TokenType = Boolean
TargetEQU = Yes
TargetH = Yes
TargetMAK = Yes
End
TOKEN
Name = "CMOS_BASED_API_INDEX"
Value = "$(CMOS_BANK0_INDEX)"
Help = "Index I/O port to access CMOS registers for the CMOS Access API pointer."
TokenType = Integer
TargetEQU = Yes
TargetH = Yes
Token = "CMOS_BASED_API_SUPPORT" "=" "1"
End
TOKEN
Name = "CMOS_BASED_API_DATA"
Value = "$(CMOS_BANK0_DATA)"
Help = "Data I/O port to access CMOS registers for the CMOS Access API pointer."
TokenType = Integer
TargetEQU = Yes
TargetH = Yes
Token = "CMOS_BASED_API_SUPPORT" "=" "1"
End
TOKEN
Name = "CMOS_ACCESS_API_BYTE3"
Value = "0x42"
Help = "The high byte of the CMOS Access API pointer registers.\If you change this token, you must overide the CMOS Tokens in CmosManager.ssp."
TokenType = Integer
TargetEQU = Yes
TargetH = Yes
Token = "CMOS_BASED_API_SUPPORT" "=" "1"
End
TOKEN
Name = "CMOS_SETUP_SUPPORT"
Value = "0"
Help = "This SDL Token specifies whether or not the CMOS module setup page is supported.\(This feature is only supported for TSE versions 4.6.2_TSE_2_01_1204 and later)"
TokenType = Boolean
TargetEQU = Yes
TargetH = Yes
TargetMAK = Yes
End
TOKEN
Name = "CMOS_MESSAGES_SUPPORT"
Value = "0"
Help = "This SDL Token specifies whether or not CMOS messages are supported.\(This feature is only supported for TSE versions 4.6.2_TSE_2_01_1204 and later)"
TokenType = Boolean
TargetEQU = Yes
TargetH = Yes
TargetMAK = Yes
End
TOKEN
Name = "CMOS_USES_STANDARD_BATTERY_TEST"
Value = "1"
Help = "Specifies whether or not to use CMOS Manager's default battery test function. If a platform provides a different battery test function this token should be disabled."
TokenType = Boolean
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_USES_STANDARD_IS_FIRST_BOOT"
Value = "1"
Help = "Specifies whether or not to use CMOS Manager's default first boot test function. If a platform provides a different first boot test function this token should be disabled."
TokenType = Boolean
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_USES_STANDARD_IS_BSP"
Value = "1"
Help = "This SDL Token specifies whether or not to use the default function to determine whether or not the boot strap processor is executing. If a platform provides a different function for determining the BSP, this token should be disabled."
TokenType = Boolean
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_USES_STANDARD_IS_CMOS_USABLE"
Value = "1"
Help = "This SDL Token specifies whether or not to use the default function to determine whether or not the CMOS is usable. If a platform provides a different function for determining the usability of CMOS, this token should be disabled."
TokenType = Boolean
TargetEQU = Yes
TargetH = Yes
End
TOKEN
Name = "CMOS_USES_STANDARD_IS_COLD_BOOT"
Value = "1"
Help = "This SDL Token specifies whether or not to use the default function to determine whether or not the platform is executing a cold boot."
TokenType = Boolean
TargetEQU = Yes
TargetH = Yes
End
ELINK
Name = "{0, 0, 0, 127, ReadWriteStandardRange},"
Parent = "CMOS_PORT_MAPPING"
Help = "Standard NMI-capable access range"
Token = "CMOS_USES_STANDARD_RANGE_ACCESS" "=" "1"
InvokeOrder = AfterParent
End
ELINK
Name = "CmosMgrBatteryIsGood,"
Parent = "CMOS_BATTERY_TEST_MAPPING"
Help = "Link the standard function to determine whether or not the CMOS battery is good."
Token = "CMOS_USES_STANDARD_BATTERY_TEST" "=" "1"
InvokeOrder = AfterParent
End
ELINK
Name = "CmosMgrIsFirstBoot,"
Parent = "CMOS_IS_FIRST_BOOT_MAPPING"
Help = "Link the standard function to determine whether or not the platform is executing a first boot."
Token = "CMOS_USES_STANDARD_IS_FIRST_BOOT" "=" "1"
InvokeOrder = AfterParent
End
ELINK
Name = "CmosIsUsable,"
Parent = "CMOS_IS_USABLE_MAPPING"
Help = "Link the standard function to determine whether or not the is usable. (The CMOS may be usable if the battery is bad.)"
Token = "CMOS_USES_STANDARD_IS_CMOS_USABLE" "=" "1"
InvokeOrder = AfterParent
End
ELINK
Name = "CmosMgrIsBsp,"
Parent = "CMOS_IS_BSP_MAPPING"
Help = "Link the standard function to determine whether or not the BSP is currently executing."
Token = "CMOS_USES_STANDARD_IS_BSP" "=" "1"
InvokeOrder = AfterParent
End
ELINK
Name = "CmosMgrIsColdBoot,"
Parent = "CMOS_IS_COLD_BOOT_MAPPING"
Help = "Link the standard function to determine whether or not the platform is executing a cold boot."
Token = "CMOS_USES_STANDARD_IS_COLD_BOOT" "=" "1"
InvokeOrder = AfterParent
End
ELINK
Name = "$(CMOS_MANAGER_DIR)\CmosSetup.sd"
Parent = "SETUP_DEFINITIONS"
InvokeOrder = AfterParent
Token = "CMOS_SETUP_SUPPORT" "=" "1"
End
ELINK
Name = "$(CMOS_MANAGER_DIR)/CmosSetup.uni"
Parent = "SetupStringFiles"
InvokeOrder = AfterParent
Token = "CMOS_SETUP_SUPPORT" "=" "1"
End
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#** All Rights Reserved. **
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