Coreboot Options: Difference between revisions

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This is an automatically generated list of '''coreboot compile-time options'''.
{{#externalredirect: https://coreboot.org/status/kconfig-options.html }}
 
Last update: 4.6-1123-g3455672797
{| border="0" style="font-size: smaller"
|- bgcolor="#6699dd"
! align="left" | Option
! align="left" | Source
! align="left" | Format
! align="left" | Short Description
! align="left" | Description
|- bgcolor="#6699dd"
! align="left" | Menu: General setup || || || ||
|- bgcolor="#eeeeee"
| LOCALVERSION || toplevel || string || Local version string ||
Append an extra string to the end of the coreboot version.
 
This can be useful if, for instance, you want to append the
respective board's hostname or some other identifying string to
the coreboot version number, so that you can easily distinguish
boot logs of different boards from each other.
 
||
|- bgcolor="#eeeeee"
| CBFS_PREFIX || toplevel || string || CBFS prefix to use ||
Select the prefix to all files put into the image. It's "fallback"
by default, "normal" is a common alternative.
 
||
|- bgcolor="#eeeeee"
| CBFS_PREFIX || toplevel || string || Compiler to use ||
This option allows you to select the compiler used for building
coreboot.
You must build the coreboot crosscompiler for the board that you
have selected.
 
To build all the GCC crosscompilers (takes a LONG time), run:
make crossgcc
 
For help on individual architectures, run the command:
make help_toolchain
 
||
|- bgcolor="#eeeeee"
| COMPILER_GCC || toplevel || bool || GCC ||
Use the GNU Compiler Collection (GCC) to build coreboot.
 
For details see http://gcc.gnu.org.
 
||
|- bgcolor="#eeeeee"
| COMPILER_LLVM_CLANG || toplevel || bool || LLVM/clang (TESTING ONLY - Not currently working) ||
Use LLVM/clang to build coreboot.  To use this, you must build the
coreboot version of the clang compiler.  Run the command
make clang
Note that this option is not currently working correctly and should
really only be selected if you're trying to work on getting clang
operational.
 
For details see http://clang.llvm.org.
 
||
|- bgcolor="#eeeeee"
| ANY_TOOLCHAIN || toplevel || bool || Allow building with any toolchain ||
Many toolchains break when building coreboot since it uses quite
unusual linker features. Unless developers explicitely request it,
we'll have to assume that they use their distro compiler by mistake.
Make sure that using patched compilers is a conscious decision.
 
||
|- bgcolor="#eeeeee"
| CCACHE || toplevel || bool || Use ccache to speed up (re)compilation ||
Enables the use of ccache for faster builds.
 
Requires the ccache utility in your system $PATH.
 
For details see https://ccache.samba.org.
 
||
|- bgcolor="#eeeeee"
| FMD_GENPARSER || toplevel || bool || Generate flashmap descriptor parser using flex and bison ||
Enable this option if you are working on the flashmap descriptor
parser and made changes to fmd_scanner.l or fmd_parser.y.
 
Otherwise, say N to use the provided pregenerated scanner/parser.
 
||
|- bgcolor="#eeeeee"
| UTIL_GENPARSER || toplevel || bool || Generate SCONFIG & BLOBTOOL parser using flex and bison ||
Enable this option if you are working on the sconfig device tree
parser or blobtool and made changes to the .l or .y files.
 
Otherwise, say N to use the provided pregenerated scanner/parser.
 
||
|- bgcolor="#eeeeee"
| USE_OPTION_TABLE || toplevel || bool || Use CMOS for configuration values ||
Enable this option if coreboot shall read options from the "CMOS"
NVRAM instead of using hard-coded values.
 
||
|- bgcolor="#eeeeee"
| STATIC_OPTION_TABLE || toplevel || bool || Load default configuration values into CMOS on each boot ||
Enable this option to reset "CMOS" NVRAM values to default on
every boot.  Use this if you want the NVRAM configuration to
never be modified from its default values.
 
||
|- bgcolor="#eeeeee"
| COMPRESS_RAMSTAGE || toplevel || bool || Compress ramstage with LZMA ||
Compress ramstage to save memory in the flash image. Note
that decompression might slow down booting if the boot flash
is connected through a slow link (i.e. SPI).
 
||
|- bgcolor="#eeeeee"
| COMPRESS_PRERAM_STAGES || toplevel || bool || Compress romstage and verstage with LZ4 ||
Compress romstage and (if it exists) verstage with LZ4 to save flash
space and speed up boot, since the time for reading the image from SPI
(and in the vboot case verifying it) is usually much greater than the
time spent decompressing. Doesn't work for XIP stages (assume all
ARCH_X86 for now) for obvious reasons.
 
||
|- bgcolor="#eeeeee"
| INCLUDE_CONFIG_FILE || toplevel || bool || Include the coreboot .config file into the ROM image ||
Include the .config file that was used to compile coreboot
in the (CBFS) ROM image. This is useful if you want to know which
options were used to build a specific coreboot.rom image.
 
Saying Y here will increase the image size by 2-3KB.
 
You can use the following command to easily list the options:
 
grep -a CONFIG_ coreboot.rom
 
Alternatively, you can also use cbfstool to print the image
contents (including the raw 'config' item we're looking for).
 
Example:
 
$ cbfstool coreboot.rom print
coreboot.rom: 4096 kB, bootblocksize 1008, romsize 4194304,
offset 0x0
Alignment: 64 bytes
 
Name                          Offset    Type        Size
cmos_layout.bin                0x0        cmos layout  1159
fallback/romstage              0x4c0      stage        339756
fallback/ramstage              0x53440    stage        186664
fallback/payload              0x80dc0    payload      51526
config                        0x8d740    raw          3324
(empty)                        0x8e480    null        3610440
 
||
|- bgcolor="#eeeeee"
| COLLECT_TIMESTAMPS || toplevel || bool || Create a table of timestamps collected during boot ||
Make coreboot create a table of timer-ID/timer-value pairs to
allow measuring time spent at different phases of the boot process.
 
||
|- bgcolor="#eeeeee"
| USE_BLOBS || toplevel || bool || Allow use of binary-only repository ||
This draws in the blobs repository, which contains binary files that
might be required for some chipsets or boards.
This flag ensures that a "Free" option remains available for users.
 
||
|- bgcolor="#eeeeee"
| COVERAGE || toplevel || bool || Code coverage support ||
Add code coverage support for coreboot. This will store code
coverage information in CBMEM for extraction from user space.
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| UBSAN || toplevel || bool || Undefined behavior sanitizer support ||
Instrument the code with checks for undefined behavior. If unsure,
say N because it adds a small performance penalty and may abort
on code that happens to work in spite of the UB.
 
||
|- bgcolor="#eeeeee"
| RELOCATABLE_RAMSTAGE || toplevel || bool || Build the ramstage to be relocatable in 32-bit address space. ||
The reloctable ramstage support allows for the ramstage to be built
as a relocatable module. The stage loader can identify a place
out of the OS way so that copying memory is unnecessary during an S3
wake. When selecting this option the romstage is responsible for
determing a stack location to use for loading the ramstage.
 
||
|- bgcolor="#eeeeee"
| CACHE_RELOCATED_RAMSTAGE_OUTSIDE_CBMEM || toplevel || bool ||  ||
The relocated ramstage is saved in an area specified by the
by the board and/or chipset.
 
||
|- bgcolor="#eeeeee"
| UPDATE_IMAGE || toplevel || bool || Update existing coreboot.rom image ||
If this option is enabled, no new coreboot.rom file
is created. Instead it is expected that there already
is a suitable file for further processing.
The bootblock will not be modified.
 
If unsure, select 'N'
 
||
|- bgcolor="#eeeeee"
| BOARD_ID_STRING || toplevel || string || Board ID ||
This string is placed in the 'board_id' CBFS file for indicating
board type.
 
||
|- bgcolor="#eeeeee"
| RAM_CODE_SUPPORT || toplevel || bool ||  ||
If enabled, coreboot discovers RAM configuration (value obtained by
reading board straps) and stores it in coreboot table.
 
||
|- bgcolor="#eeeeee"
| BOOTSPLASH_IMAGE || toplevel || bool || Add a bootsplash image ||
Select this option if you have a bootsplash image that you would
like to add to your ROM.
 
This will only add the image to the ROM. To actually run it check
options under 'Display' section.
 
||
|- bgcolor="#eeeeee"
| BOOTSPLASH_FILE || toplevel || string || Bootsplash path and filename ||
The path and filename of the file to use as graphical bootsplash
screen. The file format has to be jpg.
 
||
 
|- bgcolor="#6699dd"
! align="left" | Menu: Mainboard || || || ||
|- bgcolor="#eeeeee"
| || || (comment) || || Important: Run 'make distclean' before switching boards ||
|- bgcolor="#eeeeee"
| UART_FOR_CONSOLE || mainboard/intel/mohonpeak || int ||  ||
The Mohon Peak board uses COM2 (2f8) for the serial console.
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_CONFIGFILE || mainboard/intel/mohonpeak || string ||  ||
The Avoton/Rangeley chip does not allow devices to write into the 0xe000
segment.  This means that USB/SATA devices will not work in SeaBIOS unless
we put the SeaBIOS buffer area down in the 0x9000 segment.
 
||
|- bgcolor="#eeeeee"
| VBOOT || mainboard/intel/kblrvp || None || TPM to USE ||
This option allows you to select the TPM to use.
Select whether the board does not have TPM, TPM 1.1 or TPM 2.0
 
||
|- bgcolor="#eeeeee"
| UART_FOR_CONSOLE || mainboard/intel/littleplains || int ||  ||
The Little Plains board uses COM2 (2f8) for the serial console.
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_CONFIGFILE || mainboard/intel/littleplains || string ||  ||
The Avoton/Rangeley chip does not allow devices to write into the 0xe000
segment.  This means that USB/SATA devices will not work in SeaBIOS unless
we put the SeaBIOS buffer area down in the 0x9000 segment.
 
||
|- bgcolor="#eeeeee"
| GALILEO_GEN2 || mainboard/intel/galileo || bool || Board generation: GEN1 (n) or GEN2 (y) ||
The coreboot binary will configure only one generation of the Galileo
board since coreboot can not determine the board generation at
runtime.  Select which generation of the Galileo that coreboot
should initialize.
 
||
|- bgcolor="#eeeeee"
| FSP_VERSION_1_1 || mainboard/intel/galileo || bool || FSP 1.1 ||
Use FSP 1_1 binary
||
|- bgcolor="#eeeeee"
| FSP_VERSION_2_0 || mainboard/intel/galileo || bool || FSP 2.0 ||
Use FSP 2.0 binary
 
||
|- bgcolor="#eeeeee"
| FSP_BUILD_TYPE_DEBUG || mainboard/intel/galileo || bool || Debug ||
Use the debug version of FSP
||
|- bgcolor="#eeeeee"
| FSP_BUILD_TYPE_RELEASE || mainboard/intel/galileo || bool || Release ||
Use the release version of FSP
 
||
|- bgcolor="#eeeeee"
| FSP_TYPE_1_1 || mainboard/intel/galileo || bool || MemInit subroutine ||
FSP 1.1 implemented as subroutines, no EDK-II cores
||
|- bgcolor="#eeeeee"
| FSP_TYPE_1_1_PEI || mainboard/intel/galileo || bool || SEC + PEI Core + MemInit PEIM ||
FSP 1.1 implemented using SEC and PEI core
||
|- bgcolor="#eeeeee"
| FSP_TYPE_2_0 || mainboard/intel/galileo || bool || MemInit subroutine ||
FSP 2.0 implemented as subroutines, no EDK-II cores
||
|- bgcolor="#eeeeee"
| FSP_TYPE_2_0_PEI || mainboard/intel/galileo || bool || SEC + PEI Core + MemInit PEIM ||
FSP 2.0 implemented using SEC and PEI core
 
||
|- bgcolor="#eeeeee"
| FSP_DEBUG_ALL || mainboard/intel/galileo || bool || Enable all FSP debug support ||
Turn on debug support to display HOBS, MTRRS, SMM_MEMORY_MAP, UPD_DATA
also turn on FSP 2.0 debug support for ESRAM_LAYOUT,
FSP_CALLS_AND_STATUS, FSP_HEADER, POSTCAR_CONSOLE and VERIFY_HOBS
or FSP 1.1 DISPLAY_FSP_ENTRY_POINTS
 
||
|- bgcolor="#eeeeee"
| VBOOT_WITH_CRYPTO_SHIELD || mainboard/intel/galileo || bool || Verified boot using the Crypto Shield board ||
Perform a verified boot using the TPM on the Crypto Shield board.
 
||
|- bgcolor="#eeeeee"
| DRIVER_TPM_I2C_ADDR || mainboard/intel/galileo || hex || Address of the I2C TPM chip ||
I2C address of the TPM chip on the Crypto Shield board.
 
||
|- bgcolor="#eeeeee"
| FMDFILE || mainboard/intel/galileo || string || FMAP description file in fmd format ||
The build system creates a default FMAP from ROM_SIZE and CBFS_SIZE,
but in some cases more complex setups are required.
 
When an FMD descriptionn file is specified, the build system uses it
instead of creating a default FMAP file.
 
||
|- bgcolor="#eeeeee"
| BASEBOARD_GLKRVP_LAPTOP || mainboard/intel/glkrvp || None || ON BOARD EC ||
This option allows you to select the on board EC to use.
Select whether the board  has Intel EC or Chrome EC
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_FILE || mainboard/intel/strago || string ||  ||
The C0 version of the video bios gets computed from this name
so that they can both be added.  Only the correct one for the
system will be run.
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_ID || mainboard/intel/strago || string ||  ||
The VGA_BIOS_ID for the C0 version of the video bios is hardcoded
in soc/intel/braswell/Makefile.inc as 8086,22b1
 
||
|- bgcolor="#eeeeee"
| HUDSON_LEGACY_FREE || mainboard/bap/ode_e21XX || bool || Select DDR3 clock ||
Select your preferenced DDR3 clock setting.
 
Note: This option changes the total power consumption.
 
If unsure, use DDR3-1333.
 
||
|- bgcolor="#eeeeee"
| HUDSON_LEGACY_FREE || mainboard/bap/ode_e20XX || bool || Select DDR3 clock ||
Select your preferred DDR3 clock setting.
 
Note: This option changes the total power consumption.
 
If unsure, use DDR3-1066.
 
||
|- bgcolor="#eeeeee"
| ENABLE_DP3_DAUGHTER_CARD_IN_J120 || mainboard/amd/lamar || bool || Use J120 as an additional graphics port ||
The PCI Express slot at J120 can be configured as an additional
DisplayPort connector using an adapter card from AMD or as a normal
PCI Express (x4) slot.
 
By default, the connector is configured as a PCI Express (x4) slot.
 
Select this option to enable the slot for use with one of AMD's
passive graphics port expander cards (only available from AMD).
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_PART_NUMBER || mainboard/google/nyan_blaze || string || BCT boot media ||
Which boot media to configure the BCT for.
 
||
|- bgcolor="#eeeeee"
| NYAN_BLAZE_BCT_CFG_SPI || mainboard/google/nyan_blaze || bool || SPI ||
Configure the BCT for booting from SPI.
 
||
|- bgcolor="#eeeeee"
| NYAN_BLAZE_BCT_CFG_EMMC || mainboard/google/nyan_blaze || bool || eMMC ||
Configure the BCT for booting from eMMC.
 
||
|- bgcolor="#eeeeee"
| BOOT_DEVICE_SPI_FLASH_BUS || mainboard/google/nyan_blaze || int || SPI bus with boot media ROM ||
Which SPI bus the boot media is connected to.
 
||
|- bgcolor="#eeeeee"
| DISPLAY_SPD_DATA || mainboard/google/cyan || bool || Display Memory Serial Presence Detect Data ||
When enabled displays the memory configuration data.
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_FILE || mainboard/google/cyan || string ||  ||
The C0 version of the video bios gets computed from this name
so that they can both be added.  Only the correct one for the
system will be run.
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_ID || mainboard/google/cyan || string ||  ||
The VGA_BIOS_ID for the C0 version of the video bios is hardcoded
in soc/intel/braswell/Makefile.inc as 8086,22b1
 
||
|- bgcolor="#eeeeee"
| DRAM_SIZE_MB || mainboard/google/smaug || int || BCT boot media ||
Which boot media to configure the BCT for.
 
||
|- bgcolor="#eeeeee"
| SMAUG_BCT_CFG_SPI || mainboard/google/smaug || bool || SPI ||
Configure the BCT for booting from SPI.
 
||
|- bgcolor="#eeeeee"
| SMAUG_BCT_CFG_EMMC || mainboard/google/smaug || bool || eMMC ||
Configure the BCT for booting from eMMC.
 
||
|- bgcolor="#eeeeee"
| BOOT_DEVICE_SPI_FLASH_BUS || mainboard/google/smaug || int || SPI bus with boot media ROM ||
Which SPI bus the boot media is connected to.
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_PART_NUMBER || mainboard/google/nyan_big || string || BCT boot media ||
Which boot media to configure the BCT for.
 
||
|- bgcolor="#eeeeee"
| NYAN_BIG_BCT_CFG_SPI || mainboard/google/nyan_big || bool || SPI ||
Configure the BCT for booting from SPI.
 
||
|- bgcolor="#eeeeee"
| NYAN_BIG_BCT_CFG_EMMC || mainboard/google/nyan_big || bool || eMMC ||
Configure the BCT for booting from eMMC.
 
||
|- bgcolor="#eeeeee"
| BOOT_DEVICE_SPI_FLASH_BUS || mainboard/google/nyan_big || int || SPI bus with boot media ROM ||
Which SPI bus the boot media is connected to.
 
||
|- bgcolor="#eeeeee"
| DRAM_SIZE_MB || mainboard/google/foster || int || BCT boot media ||
Which boot media to configure the BCT for.
 
||
|- bgcolor="#eeeeee"
| FOSTER_BCT_CFG_SPI || mainboard/google/foster || bool || SPI ||
Configure the BCT for booting from SPI.
 
||
|- bgcolor="#eeeeee"
| FOSTER_BCT_CFG_EMMC || mainboard/google/foster || bool || eMMC ||
Configure the BCT for booting from eMMC.
 
||
|- bgcolor="#eeeeee"
| BOOT_DEVICE_SPI_FLASH_BUS || mainboard/google/foster || int || SPI bus with boot media ROM ||
Which SPI bus the boot media is connected to.
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_PART_NUMBER || mainboard/google/nyan || string || BCT boot media ||
Which boot media to configure the BCT for.
 
||
|- bgcolor="#eeeeee"
| NYAN_BCT_CFG_SPI || mainboard/google/nyan || bool || SPI ||
Configure the BCT for booting from SPI.
 
||
|- bgcolor="#eeeeee"
| NYAN_BCT_CFG_EMMC || mainboard/google/nyan || bool || eMMC ||
Configure the BCT for booting from eMMC.
 
||
|- bgcolor="#eeeeee"
| BOOT_DEVICE_SPI_FLASH_BUS || mainboard/google/nyan || int || SPI bus with boot media ROM ||
Which SPI bus the boot media is connected to.
 
||
|- bgcolor="#eeeeee"
| UART_FOR_CONSOLE || mainboard/adi/rcc-dff || int ||  ||
The Mohon Peak board uses COM2 (2f8) for the serial console.
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_CONFIGFILE || mainboard/adi/rcc-dff || string ||  ||
The Avoton/Rangeley chip does not allow devices to write into the 0xe000
segment.  This means that USB/SATA devices will not work in SeaBIOS unless
we put the SeaBIOS buffer area down in the 0x9000 segment.
 
||
|- bgcolor="#eeeeee"
| BOARD_ASUS_F2A85_M_DDR3_VOLT_135 || mainboard/asus/f2a85-m || bool || 1.35V ||
Set DRR3 memory voltage to 1.35V
||
|- bgcolor="#eeeeee"
| BOARD_ASUS_F2A85_M_DDR3_VOLT_150 || mainboard/asus/f2a85-m || bool || 1.50V ||
Set DRR3 memory voltage to 1.50V
||
|- bgcolor="#eeeeee"
| BOARD_ASUS_F2A85_M_DDR3_VOLT_165 || mainboard/asus/f2a85-m || bool || 1.65V ||
Set DRR3 memory voltage to 1.65V
||
|- bgcolor="#eeeeee"
| DRIVERS_PS2_KEYBOARD || mainboard/purism/librem13v1 || None ||  ||
Default PS/2 Keyboard to enabled on this board.
 
||
|- bgcolor="#eeeeee"
| DRIVERS_UART_8250IO || mainboard/purism/librem13v1 || None ||  ||
This platform does not have any way to get standard
serial output so disable it by default.
 
||
|- bgcolor="#eeeeee"
| NO_POST || mainboard/purism/librem13v1 || int ||  ||
This platform does not have any way to see POST codes
so disable them by default.
 
||
|- bgcolor="#eeeeee"
| NO_POST || mainboard/purism/librem13v2 || int ||  ||
This platform does not have any way to see POST codes
so disable them by default.
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || was acquired by ADLINK ||
|- bgcolor="#eeeeee"
| ONBOARD_UARTS_RS485 || mainboard/lippert/spacerunner-lx || bool || Switch on-board serial ports to RS485 ||
If selected, both on-board serial ports will operate in RS485 mode
instead of RS232.
 
||
|- bgcolor="#eeeeee"
| ONBOARD_IDE_SLAVE || mainboard/lippert/spacerunner-lx || bool || Make on-board SSD act as Slave ||
If selected, the on-board SSD will act as IDE Slave instead of Master.
 
||
|- bgcolor="#eeeeee"
| BOARD_OLD_REVISION || mainboard/lippert/hurricane-lx || bool || Board is old pre-3.0 revision ||
Look on the bottom side for a number like 406-0001-30.  The last 2
digits state the PCB revision (3.0 in this example).  For 2.0 or older
boards choose Y, for 3.0 and newer say N.
 
Old revision boards need a jumper shorting the power button to
power on automatically.  You may enable the button only after this
jumper has been removed.  New revision boards are not restricted
in this way, and always have the power button enabled.
 
||
|- bgcolor="#eeeeee"
| ONBOARD_UARTS_RS485 || mainboard/lippert/hurricane-lx || bool || Switch on-board serial ports to RS485 ||
If selected, both on-board serial ports will operate in RS485 mode
instead of RS232.
 
||
|- bgcolor="#eeeeee"
| ONBOARD_UARTS_RS485 || mainboard/lippert/literunner-lx || bool || Switch on-board serial ports 1 & 2 to RS485 ||
If selected, the first two on-board serial ports will operate in RS485
mode instead of RS232.
 
||
|- bgcolor="#eeeeee"
| ONBOARD_IDE_SLAVE || mainboard/lippert/literunner-lx || bool || Make on-board CF socket act as Slave ||
If selected, the on-board Compact Flash card socket will act as IDE
Slave instead of Master.
 
||
|- bgcolor="#eeeeee"
| ONBOARD_UARTS_RS485 || mainboard/lippert/roadrunner-lx || bool || Switch on-board serial ports to RS485 ||
If selected, both on-board serial ports will operate in RS485 mode
instead of RS232.
 
||
|- bgcolor="#6699dd"
! align="left" | Menu: On-Chip Device Power Down Control || || || ||
 
|- bgcolor="#6699dd"
! align="left" | Menu: Watchdog Timer setting || || || ||
 
|- bgcolor="#6699dd"
! align="left" | Menu: IDE controller setting || || || ||
|- bgcolor="#eeeeee"
| IDE_STANDARD_COMPATIBLE || mainboard/dmp/vortex86ex || bool || Standard IDE Compatible ||
Built-in IDE controller PCI vendor/device ID is 17F3:1012, which
is not recognized by some OSes.
 
This option can change IDE controller PCI vendor/device ID to
other value for software compatibility.
 
||
|- bgcolor="#eeeeee"
| IDE_COMPATIBLE_SELECTION || mainboard/dmp/vortex86ex || hex || IDE Compatible Selection ||
IDE controller PCI vendor/device ID value setting.
 
Higher 16-bit is vendor ID, lower 16-bit is device ID.
 
||
 
|- bgcolor="#6699dd"
! align="left" | Menu: GPIO setting || || || ||
 
|- bgcolor="#6699dd"
! align="left" | Menu: UART setting || || || ||
 
|- bgcolor="#6699dd"
! align="left" | Menu: LPT setting || || || ||
 
|- bgcolor="#eeeeee"
| || || (comment) || || see under vendor LiPPERT ||
|- bgcolor="#eeeeee"
| BOARD_ROMSIZE_KB_65536 || mainboard || bool || ROM chip size ||
Select the size of the ROM chip you intend to flash coreboot on.
 
The build system will take care of creating a coreboot.rom file
of the matching size.
 
||
|- bgcolor="#eeeeee"
| COREBOOT_ROMSIZE_KB_64 || mainboard || bool || 64 KB ||
Choose this option if you have a 64 KB ROM chip.
 
||
|- bgcolor="#eeeeee"
| COREBOOT_ROMSIZE_KB_128 || mainboard || bool || 128 KB ||
Choose this option if you have a 128 KB ROM chip.
 
||
|- bgcolor="#eeeeee"
| COREBOOT_ROMSIZE_KB_256 || mainboard || bool || 256 KB ||
Choose this option if you have a 256 KB ROM chip.
 
||
|- bgcolor="#eeeeee"
| COREBOOT_ROMSIZE_KB_512 || mainboard || bool || 512 KB ||
Choose this option if you have a 512 KB ROM chip.
 
||
|- bgcolor="#eeeeee"
| COREBOOT_ROMSIZE_KB_1024 || mainboard || bool || 1024 KB (1 MB) ||
Choose this option if you have a 1024 KB (1 MB) ROM chip.
 
||
|- bgcolor="#eeeeee"
| COREBOOT_ROMSIZE_KB_2048 || mainboard || bool || 2048 KB (2 MB) ||
Choose this option if you have a 2048 KB (2 MB) ROM chip.
 
||
|- bgcolor="#eeeeee"
| COREBOOT_ROMSIZE_KB_4096 || mainboard || bool || 4096 KB (4 MB) ||
Choose this option if you have a 4096 KB (4 MB) ROM chip.
 
||
|- bgcolor="#eeeeee"
| COREBOOT_ROMSIZE_KB_8192 || mainboard || bool || 8192 KB (8 MB) ||
Choose this option if you have a 8192 KB (8 MB) ROM chip.
 
||
|- bgcolor="#eeeeee"
| COREBOOT_ROMSIZE_KB_12288 || mainboard || bool || 12288 KB (12 MB) ||
Choose this option if you have a 12288 KB (12 MB) ROM chip.
 
||
|- bgcolor="#eeeeee"
| COREBOOT_ROMSIZE_KB_16384 || mainboard || bool || 16384 KB (16 MB) ||
Choose this option if you have a 16384 KB (16 MB) ROM chip.
 
||
|- bgcolor="#eeeeee"
| COREBOOT_ROMSIZE_KB_32768 || mainboard || bool || 32768 KB (32 MB) ||
Choose this option if you have a 32768 KB (32 MB) ROM chip.
 
||
|- bgcolor="#eeeeee"
| COREBOOT_ROMSIZE_KB_65536 || mainboard || bool || 65536 KB (64 MB) ||
Choose this option if you have a 65536 KB (64 MB) ROM chip.
 
||
|- bgcolor="#eeeeee"
| ENABLE_POWER_BUTTON || mainboard || bool || Enable the power button ||
The selected mainboard can optionally have the power button tied
to ground with a jumper so that the button appears to be
constantly depressed. If this option is enabled and the jumper is
installed then the board will turn on, but turn off again after a
short timeout, usually 4 seconds.
 
Select Y here if you have removed the jumper and want to use an
actual power button. Select N if you have the jumper installed.
 
||
|- bgcolor="#eeeeee"
| DEVICETREE || toplevel || string ||  ||
This symbol allows mainboards to select a different file under their
mainboard directory for the devicetree.cb file.  This allows the board
variants that need different devicetrees to be in the same directory.
 
Examples: "devicetree.variant.cb"
"variant/devicetree.cb"
 
||
|- bgcolor="#eeeeee"
| CBFS_SIZE || toplevel || hex || Size of CBFS filesystem in ROM ||
This is the part of the ROM actually managed by CBFS, located at the
end of the ROM (passed through cbfstool -o) on x86 and at at the start
of the ROM (passed through cbfstool -s) everywhere else. It defaults
to span the whole ROM on all but Intel systems that use an Intel Firmware
Descriptor.  It can be overridden to make coreboot live alongside other
components like ChromeOS's vboot/FMAP or Intel's IFD / ME / TXE
binaries.
 
||
|- bgcolor="#eeeeee"
| FMDFILE || toplevel || string || fmap description file in fmd format ||
The build system creates a default FMAP from ROM_SIZE and CBFS_SIZE,
but in some cases more complex setups are required.
When an fmd is specified, it overrides the default format.
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_HAS_TPM2 || toplevel || bool ||  ||
There is a TPM device installed on the mainboard, and it is
compliant with version 2 TCG TPM specification. Could be connected
over LPC, SPI or I2C.
 
||
 
|- bgcolor="#eeeeee"
| CBFS_AUTOGEN_ATTRIBUTES || toplevel || bool ||  ||
If this option is selected, every file in cbfs which has a constraint
regarding position or alignment will get an additional file attribute
which describes this constraint.
 
||
|- bgcolor="#6699dd"
! align="left" | Menu: Chipset || || || ||
|- bgcolor="#eeeeee"
| || || (comment) || || SoC ||
|- bgcolor="#eeeeee"
| MAINBOARD_DO_DSI_INIT || soc/nvidia/tegra210 || bool || Use dsi graphics interface ||
Initialize dsi display
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_DO_SOR_INIT || soc/nvidia/tegra210 || bool || Use dp graphics interface ||
Initialize dp display
 
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_TEGRA210_UARTA || soc/nvidia/tegra210 || bool || UARTA ||
Serial console on UART A.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_TEGRA210_UARTB || soc/nvidia/tegra210 || bool || UARTB ||
Serial console on UART B.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_TEGRA210_UARTC || soc/nvidia/tegra210 || bool || UARTC ||
Serial console on UART C.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_TEGRA210_UARTD || soc/nvidia/tegra210 || bool || UARTD ||
Serial console on UART D.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_TEGRA210_UARTE || soc/nvidia/tegra210 || bool || UARTE ||
Serial console on UART E.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_TEGRA210_UART_ADDRESS || soc/nvidia/tegra210 || hex ||  ||
Map the UART names to the respective MMIO addres.
 
||
|- bgcolor="#eeeeee"
| BOOTROM_SDRAM_INIT || soc/nvidia/tegra210 || bool || SoC BootROM does SDRAM init with full BCT ||
Use during Foster LPDDR4 bringup.
 
||
|- bgcolor="#eeeeee"
| TRUSTZONE_CARVEOUT_SIZE_MB || soc/nvidia/tegra210 || hex || Size of Trust Zone region ||
Size of Trust Zone area in MiB to reserve in memory map.
 
||
|- bgcolor="#eeeeee"
| TTB_SIZE_MB || soc/nvidia/tegra210 || hex || Size of TTB ||
Maximum size of Translation Table Buffer in MiB.
 
||
|- bgcolor="#eeeeee"
| SEC_COMPONENT_SIZE_MB || soc/nvidia/tegra210 || hex || Size of resident EL3 components ||
Maximum size of resident EL3 components in MiB including BL31 and
Secure OS.
 
||
|- bgcolor="#eeeeee"
| HAVE_MTC || soc/nvidia/tegra210 || bool || Add external Memory controller Training Code binary ||
Select this option to add emc training firmware
 
||
|- bgcolor="#eeeeee"
| MTC_FILE || soc/nvidia/tegra210 || string || tegra mtc firmware filename ||
The filename of the mtc firmware
 
||
|- bgcolor="#eeeeee"
| MTC_DIRECTORY || soc/nvidia/tegra210 || string || Directory where MTC firmware file is located ||
Path to directory where MTC firmware file is located.
 
||
|- bgcolor="#eeeeee"
| MTC_ADDRESS || soc/nvidia/tegra210 || hex ||  ||
The DRAM location where MTC firmware to be loaded in. This location
needs to be consistent with the location defined in tegra_mtc.ld
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_FSP_BAYTRAIL || soc/intel/fsp_baytrail || bool ||  ||
Bay Trail I part support using the Intel FSP.
 
||
|- bgcolor="#eeeeee"
| SMM_TSEG_SIZE || soc/intel/fsp_baytrail || hex ||  ||
This is set by the FSP
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_ID || soc/intel/fsp_baytrail || string ||  ||
This is the default PCI ID for the Bay Trail graphics
devices.  This string names the vbios ROM in cbfs.
 
||
|- bgcolor="#eeeeee"
| ENABLE_BUILTIN_COM1 || soc/intel/fsp_baytrail || bool || Enable built-in legacy Serial Port ||
The Baytrail SOC has one legacy serial port. Choose this option to
configure the pads and enable it. This serial port can be used for
the debug console.
 
||
|- bgcolor="#eeeeee"
| FSP_FILE || soc/intel/fsp_baytrail/fsp || string ||  ||
The path and filename of the Intel FSP binary for this platform.
 
||
|- bgcolor="#eeeeee"
| FSP_LOC || soc/intel/fsp_baytrail/fsp || hex ||  ||
The location in CBFS that the FSP is located. This must match the
value that is set in the FSP binary.  If the FSP needs to be moved,
rebase the FSP with Intel's BCT (tool).
 
The Bay Trail FSP is built with a preferred base address of
0xFFFC0000.
 
||
 
||
|- bgcolor="#eeeeee"
| HAVE_CMC || soc/intel/sch || bool || Add a CMC state machine binary ||
Select this option to add a CMC state machine binary to
the resulting coreboot image.
 
Note: Without this binary coreboot will not work
 
||
|- bgcolor="#eeeeee"
| CMC_FILE || soc/intel/sch || string || Intel CMC path and filename ||
The path and filename of the file to use as CMC state machine
binary.
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_CANNONLAKE || soc/intel/cannonlake || bool ||  ||
Intel Cannonlake support
 
||
|- bgcolor="#eeeeee"
| DCACHE_RAM_SIZE || soc/intel/cannonlake || bool ||  ||
The size of the cache-as-ram region required during bootblock
and/or romstage.
 
||
|- bgcolor="#eeeeee"
| DCACHE_BSP_STACK_SIZE || soc/intel/cannonlake || hex ||  ||
The amount of anticipated stack usage in CAR by bootblock and
other stages.
 
||
|- bgcolor="#eeeeee"
| PCR_BASE_ADDRESS || soc/intel/cannonlake || hex ||  ||
This option allows you to select MMIO Base Address of sideband bus.
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_BRASWELL || soc/intel/braswell || bool ||  ||
Braswell M/D part support.
 
||
|- bgcolor="#eeeeee"
| DCACHE_RAM_SIZE || soc/intel/braswell || hex ||  ||
The size of the cache-as-ram region required during bootblock
and/or romstage. Note DCACHE_RAM_SIZE and DCACHE_RAM_MRC_VAR_SIZE
must add up to a power of 2.
 
||
|- bgcolor="#eeeeee"
| RESET_ON_INVALID_RAMSTAGE_CACHE || soc/intel/braswell || bool || Reset the system on S3 wake when ramstage cache invalid. ||
The haswell romstage code caches the loaded ramstage program
in SMM space. On S3 wake the romstage will copy over a fresh
ramstage that was cached in the SMM space. This option determines
the action to take when the ramstage cache is invalid. If selected
the system will reset otherwise the ramstage will be reloaded from
cbfs.
 
||
|- bgcolor="#eeeeee"
| ENABLE_BUILTIN_COM1 || soc/intel/braswell || bool || Enable builtin COM1 Serial Port ||
The PMC has a legacy COM1 serial port. Choose this option to
configure the pads and enable it. This serial port can be used for
the debug console.
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_APOLLOLAKE || soc/intel/apollolake || bool ||  ||
Intel Apollolake support
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_GLK || soc/intel/apollolake || bool ||  ||
Intel GLK support
 
||
|- bgcolor="#eeeeee"
| TPM_ON_FAST_SPI || soc/intel/apollolake || bool ||  ||
TPM part is conntected on Fast SPI interface, but the LPC MMIO
TPM transactions are decoded and serialized over the SPI interface.
 
||
|- bgcolor="#eeeeee"
| PCR_BASE_ADDRESS || soc/intel/apollolake || hex ||  ||
This option allows you to select MMIO Base Address of sideband bus.
 
||
|- bgcolor="#eeeeee"
| DCACHE_RAM_SIZE || soc/intel/apollolake || hex ||  ||
The size of the cache-as-ram region required during bootblock
and/or romstage.
 
||
|- bgcolor="#eeeeee"
| DCACHE_BSP_STACK_SIZE || soc/intel/apollolake || hex ||  ||
The amount of anticipated stack usage in CAR by bootblock and
other stages.
 
||
|- bgcolor="#eeeeee"
| ROMSTAGE_ADDR || soc/intel/apollolake || hex ||  ||
The base address (in CAR) where romstage should be linked
 
||
|- bgcolor="#eeeeee"
| VERSTAGE_ADDR || soc/intel/apollolake || hex ||  ||
The base address (in CAR) where verstage should be linked
 
||
|- bgcolor="#eeeeee"
| FSP_M_ADDR || soc/intel/apollolake || hex ||  ||
The address FSP-M will be relocated to during build time
 
||
|- bgcolor="#eeeeee"
| NEED_LBP2 || soc/intel/apollolake || bool || Write contents for logical boot partition 2. ||
Write the contents from a file into the logical boot partition 2
region defined by LBP2_FMAP_NAME.
 
||
|- bgcolor="#eeeeee"
| LBP2_FMAP_NAME || soc/intel/apollolake || string || Name of FMAP region to put logical boot partition 2 ||
Name of FMAP region to write logical boot partition 2 data.
 
||
|- bgcolor="#eeeeee"
| LBP2_FILE_NAME || soc/intel/apollolake || string || Path of file to write to logical boot partition 2 region ||
Name of file to store in the logical boot partition 2 region.
 
||
|- bgcolor="#eeeeee"
| NEED_IFWI || soc/intel/apollolake || bool || Write content into IFWI region ||
Write the content from a file into IFWI region defined by
IFWI_FMAP_NAME.
 
||
|- bgcolor="#eeeeee"
| IFWI_FMAP_NAME || soc/intel/apollolake || string || Name of FMAP region to pull IFWI into ||
Name of FMAP region to write IFWI.
 
||
|- bgcolor="#eeeeee"
| IFWI_FILE_NAME || soc/intel/apollolake || string || Path of file to write to IFWI region ||
Name of file to store in the IFWI region.
 
||
|- bgcolor="#eeeeee"
| NHLT_DMIC_1CH_16B || soc/intel/apollolake || bool ||  ||
Include DSP firmware settings for 1 channel 16B DMIC array.
 
||
|- bgcolor="#eeeeee"
| NHLT_DMIC_2CH_16B || soc/intel/apollolake || bool ||  ||
Include DSP firmware settings for 2 channel 16B DMIC array.
 
||
|- bgcolor="#eeeeee"
| NHLT_DMIC_4CH_16B || soc/intel/apollolake || bool ||  ||
Include DSP firmware settings for 4 channel 16B DMIC array.
 
||
|- bgcolor="#eeeeee"
| NHLT_MAX98357 || soc/intel/apollolake || bool ||  ||
Include DSP firmware settings for headset codec.
 
||
|- bgcolor="#eeeeee"
| NHLT_DA7219 || soc/intel/apollolake || bool ||  ||
Include DSP firmware settings for headset codec.
 
||
|- bgcolor="#eeeeee"
| NHLT_DA7219 || soc/intel/apollolake || bool || Cache-as-ram implementation ||
This option allows you to select how cache-as-ram (CAR) is set up.
 
||
|- bgcolor="#eeeeee"
| CAR_NEM || soc/intel/apollolake || bool || Non-evict mode ||
Traditionally, CAR is set up by using Non-Evict mode. This method
does not allow CAR and cache to co-exist, because cache fills are
block in NEM mode.
 
||
|- bgcolor="#eeeeee"
| CAR_CQOS || soc/intel/apollolake || bool || Cache Quality of Service ||
Cache Quality of Service allows more fine-grained control of cache
usage. As result, it is possible to set up portion of L2 cache for
CAR and use remainder for actual caching.
 
||
|- bgcolor="#eeeeee"
| USE_APOLLOLAKE_FSP_CAR || soc/intel/apollolake || bool || Use FSP CAR ||
Use FSP APIs to initialize & tear down the Cache-As-Ram.
 
||
|- bgcolor="#eeeeee"
| USE_APOLLOLAKE_FSP_CAR || soc/intel/apollolake || bool || MPINIT code implementation ||
This option allows you to select MP Init Code path either
from Intel Common Code implementation, or from SOC files.
 
||
|- bgcolor="#eeeeee"
| NO_COMMON_MPINIT || soc/intel/apollolake || bool || Not using Common MP Init code ||
Common code MP Init path is not used.
 
||
|- bgcolor="#eeeeee"
| COMMON_MPINIT || soc/intel/apollolake || bool || Using Common MP Init code ||
Common code MP Init path is used.
 
||
|- bgcolor="#eeeeee"
| APL_SKIP_SET_POWER_LIMITS || soc/intel/apollolake || bool ||  ||
Some Apollo Lake mainboards do not need the Running Average Power
Limits (RAPL) algorithm for a constant power management.
Set this config option to skip the RAPL configuration.
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_BAYTRAIL || soc/intel/baytrail || bool ||  ||
Bay Trail M/D part support.
 
||
|- bgcolor="#eeeeee"
| HAVE_MRC || soc/intel/baytrail || bool || Add a Memory Reference Code binary ||
Select this option to add a blob containing
memory reference code.
Note: Without this binary coreboot will not work
 
||
|- bgcolor="#eeeeee"
| MRC_FILE || soc/intel/baytrail || string || Intel memory refeference code path and filename ||
The path and filename of the file to use as System Agent
binary. Note that this points to the sandybridge binary file
which is will not work, but it serves its purpose to do builds.
 
||
|- bgcolor="#eeeeee"
| DCACHE_RAM_SIZE || soc/intel/baytrail || hex ||  ||
The size of the cache-as-ram region required during bootblock
and/or romstage. Note DCACHE_RAM_SIZE and DCACHE_RAM_MRC_VAR_SIZE
must add up to a power of 2.
 
||
|- bgcolor="#eeeeee"
| DCACHE_RAM_MRC_VAR_SIZE || soc/intel/baytrail || hex ||  ||
The amount of cache-as-ram region required by the reference code.
 
||
|- bgcolor="#eeeeee"
| RESET_ON_INVALID_RAMSTAGE_CACHE || soc/intel/baytrail || bool || Reset the system on S3 wake when ramstage cache invalid. ||
The baytrail romstage code caches the loaded ramstage program
in SMM space. On S3 wake the romstage will copy over a fresh
ramstage that was cached in the SMM space. This option determines
the action to take when the ramstage cache is invalid. If selected
the system will reset otherwise the ramstage will be reloaded from
cbfs.
 
||
|- bgcolor="#eeeeee"
| ENABLE_BUILTIN_COM1 || soc/intel/baytrail || bool || Enable builtin COM1 Serial Port ||
The PMC has a legacy COM1 serial port. Choose this option to
configure the pads and enable it. This serial port can be used for
the debug console.
 
||
|- bgcolor="#eeeeee"
| HAVE_REFCODE_BLOB || soc/intel/baytrail || bool || An external reference code blob should be put into cbfs. ||
The reference code blob will be placed into cbfs.
 
||
|- bgcolor="#eeeeee"
| REFCODE_BLOB_FILE || soc/intel/baytrail || string || Path and filename to reference code blob. ||
The path and filename to the file to be added to cbfs.
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_QUARK || soc/intel/quark || bool ||  ||
Intel Quark support
 
||
|- bgcolor="#eeeeee"
| ENABLE_BUILTIN_HSUART0 || soc/intel/quark || bool || Enable built-in HSUART0 ||
The Quark SoC has two HSUART. Choose this option to configure the pads
and enable HSUART0, which can be used for the debug console.
 
||
|- bgcolor="#eeeeee"
| ENABLE_BUILTIN_HSUART1 || soc/intel/quark || bool || Enable built-in HSUART1 ||
The Quark SoC has two HSUART. Choose this option to configure the pads
and enable HSUART1, which can be used for the debug console.
 
||
|- bgcolor="#eeeeee"
| TTYS0_BASE || soc/intel/quark || hex || HSUART Base Address ||
Memory mapped MMIO of HSUART.
 
||
|- bgcolor="#eeeeee"
| ENABLE_DEBUG_LED || soc/intel/quark || bool ||  ||
Enable the use of the SD LED for early debugging before serial output
is available.  Setting this LED indicates that control has reached the
desired check point.
 
||
|- bgcolor="#eeeeee"
| ENABLE_DEBUG_LED_ESRAM || soc/intel/quark || bool || SD LED indicates ESRAM initialized ||
Indicate that ESRAM has been successfully initialized.  If the SD LED
does not light then the ESRAM initialization needs to be debugged.
 
||
|- bgcolor="#eeeeee"
| ENABLE_DEBUG_LED_FINDFSP || soc/intel/quark || bool || SD LED indicates fsp.bin file was found ||
Indicate that fsp.bin was found.  If the SD LED does not light then
the code between ESRAM initialization through find_fsp needs to
debugged.  Start by verifying that the correct fsp.bin is in the
image.
 
||
|- bgcolor="#eeeeee"
| ENABLE_DEBUG_LED_BOOTBLOCK_ENTRY || soc/intel/quark || bool || SD LED indicates bootblock.c successfully entered ||
Indicate that bootblock_c_entry was entered.  If the SD LED does not
light then debug the code between ESRAM and bootblock_c_entry.  For
FSP 1.1, use ENABLE_DEBUG_LED_FINDFSP to split this code.
 
||
|- bgcolor="#eeeeee"
| ENABLE_DEBUG_LED_SOC_EARLY_INIT_ENTRY || soc/intel/quark || bool || SD LED indicates bootblock_soc_early_init successfully entered ||
Indicate that bootblock_soc_early_init was entered.  If the SD LED
does not light then debug the code in bootblock_main_with_timestamp.
 
||
|- bgcolor="#eeeeee"
| ENABLE_DEBUG_LED_SOC_EARLY_INIT_EXIT || soc/intel/quark || bool || SD LED indicates bootblock_soc_early_init successfully exited ||
Indicate that bootblock_soc_early_init exited.  If the SD LED does not
light then debug the scripts in bootblock_soc_early_init.
 
||
|- bgcolor="#eeeeee"
| ENABLE_DEBUG_LED_SOC_INIT_ENTRY || soc/intel/quark || bool || SD LED indicates bootblock_soc_init successfully entered ||
Indicate that bootblock_soc_init was entered.  If the SD LED does not
light then debug the code in bootblock_mainboard_early_init and
console_init.  If the SD LED does light but there is no serial then
debug the serial port configuration and initialization.
 
||
|- bgcolor="#eeeeee"
| DISPLAY_ESRAM_LAYOUT || soc/intel/quark || bool || Display ESRAM layout ||
Select this option to display coreboot's use of ESRAM.
 
||
|- bgcolor="#eeeeee"
| CBFS_SIZE || soc/intel/quark || hex ||  ||
Specify the size of the coreboot file system in the read-only (recovery)
portion of the flash part.  On Quark systems the firmware image stores
more than just coreboot, including:
- The chipset microcode (RMU) binary file located at 0xFFF00000
- Intel Trusted Execution Engine firmware
 
||
|- bgcolor="#eeeeee"
| ADD_FSP_RAW_BIN || soc/intel/quark || bool || Add the Intel FSP binary to the flash image without relocation ||
Select this option to add an Intel FSP binary to
the resulting coreboot image.
 
Note: Without this binary, coreboot builds relying on the FSP
will not boot
 
||
|- bgcolor="#eeeeee"
| FSP_FILE || soc/intel/quark || string || Intel FSP binary path and filename ||
The path and filename of the Intel FSP binary for this platform.
 
||
|- bgcolor="#eeeeee"
| FSP_LOC || soc/intel/quark || hex ||  ||
The location in CBFS that the FSP is located. This must match the
value that is set in the FSP binary.  If the FSP needs to be moved,
rebase the FSP with Intel's BCT (tool).
 
||
|- bgcolor="#eeeeee"
| FSP_ESRAM_LOC || soc/intel/quark || hex ||  ||
The location in ESRAM where a copy of the FSP binary is placed.
 
||
|- bgcolor="#eeeeee"
| RELOCATE_FSP_INTO_DRAM || soc/intel/quark || bool || Relocate FSP into DRAM ||
Relocate the FSP binary into DRAM before the call to SiliconInit.
 
||
|- bgcolor="#eeeeee"
| ADD_RMU_FILE || soc/intel/quark || bool || Should the RMU binary be added to the flash image? ||
The RMU file is required to get the chip out of reset.
 
||
|- bgcolor="#eeeeee"
| RMU_FILE || soc/intel/quark || string ||  ||
The path and filename of the Intel Quark RMU binary.
 
||
|- bgcolor="#eeeeee"
| RMU_LOC || soc/intel/quark || hex ||  ||
The location in CBFS that the RMU is located. It must match the
strap-determined base address.
 
||
|- bgcolor="#eeeeee"
| STORAGE_TEST || soc/intel/quark || bool || Test SD/MMC/eMMC card or device access ||
Read block 0 from each parition of the storage device.  User
must also enable one or both of COMMONLIB_STORAGE_SD or
COMMONLIB_STORAGE_MMC.
 
||
|- bgcolor="#eeeeee"
| I2C_DEBUG || soc/intel/quark || bool || Enable I2C debugging ||
Display the I2C segments and controller errors
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON || soc/intel/common || bool ||  ||
common code for Intel SOCs
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || Intel SoC Common Code ||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK || soc/intel/common/block || bool ||  ||
SoC driver for intel common IP code
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || Intel SoC Common IP Code ||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_TIMER || soc/intel/common/block/timer || bool ||  ||
Intel Processor common TIMER support
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_XDCI || soc/intel/common/block/xdci || bool ||  ||
Intel Processor common XDCI support
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_SCS || soc/intel/common/block/scs || bool ||  ||
Intel Processor common storage and communication subsystem support
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_SATA || soc/intel/common/block/sata || bool ||  ||
Intel Processor common SATA support
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_LPC || soc/intel/common/block/lpc || bool ||  ||
Use common LPC code for platform. Only soc specific code needs to
be implemented as per requirement.
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_SMM || soc/intel/common/block/smm || bool ||  ||
Intel Processor common SMM support
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_SMM_IO_TRAP || soc/intel/common/block/smm || bool ||  ||
Intel Processor trap flag if it is supported
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_SA || soc/intel/common/block/systemagent || bool ||  ||
Intel Processor common System Agent support
 
||
|- bgcolor="#eeeeee"
| SA_PCIEX_LENGTH || soc/intel/common/block/systemagent || hex ||  ||
This option allows you to select length of PCIEX region.
 
||
|- bgcolor="#eeeeee"
| SA_ENABLE_IMR || soc/intel/common/block/systemagent || bool ||  ||
This option allows you to add the isolated memory ranges (IMRs).
 
||
|- bgcolor="#eeeeee"
| SA_ENABLE_DPR || soc/intel/common/block/systemagent || bool ||  ||
This option allows you to add the DMA Protected Range (DPR).
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_LPSS || soc/intel/common/block/lpss || bool ||  ||
Intel Processor common LPSS support
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_FAST_SPI || soc/intel/common/block/fast_spi || bool ||  ||
Intel Processor common FAST_SPI support
 
||
|- bgcolor="#eeeeee"
| FAST_SPI_DISABLE_WRITE_STATUS || soc/intel/common/block/fast_spi || bool || Disable write status SPI opcode ||
Disable the write status SPI opcode in Intel Fast SPI block.
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_UART || soc/intel/common/block/uart || bool ||  ||
Intel Processor common UART support
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_UART_LPSS_CLK_M_VAL || soc/intel/common/block/uart || hex ||  ||
Clock m-divisor value for m/n divider
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_UART_LPSS_CLK_N_VAL || soc/intel/common/block/uart || hex ||  ||
Clock m-divisor value for m/n divider
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_GSPI || soc/intel/common/block/gspi || bool ||  ||
Intel Processor Common GSPI support
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_GSPI_MAX || soc/intel/common/block/gspi || int ||  ||
Maximum number of GSPI controllers supported by the PCH. SoC
must define this config if SOC_INTEL_COMMON_BLOCK_GSPI is
selected.
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_XHCI || soc/intel/common/block/xhci || bool ||  ||
Intel Processor common XHCI support
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_PCIE || soc/intel/common/block/pcie || bool ||  ||
Intel Processor common PCIE support
 
||
|- bgcolor="#eeeeee"
| PCIE_DEBUG_INFO || soc/intel/common/block/pcie || bool ||  ||
Enable debug logs in PCIe module. Allows debug information on memory
base and limit, prefetchable memory base and limit, prefetchable memory
base upper 32 bits and prefetchable memory limit upper 32 bits.
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_PCR || soc/intel/common/block/pcr || bool ||  ||
Intel Processor common Private configuration registers (PCR)
 
||
|- bgcolor="#eeeeee"
| PCR_COMMON_IOSF_1_0 || soc/intel/common/block/pcr || bool ||  ||
The mapping of addresses via the SBREG_BAR assumes the IOSF-SB
agents are using 32-bit aligned accesses for their configuration
registers. For IOSF versions greater than 1_0, IOSF-SB
agents can use any access (8/16/32 bit aligned) for their
configuration registers
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_RTC || soc/intel/common/block/rtc || bool ||  ||
Intel Processor common RTC support
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_CPU || soc/intel/common/block/cpu || bool ||  ||
This option selects Intel Common CPU Model support code
which provides various CPU related APIs which are common
between all Intel Processor families. Common CPU code is supported
for SOCs starting from SKL,KBL,APL, and future.
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_CPU_MPINIT || soc/intel/common/block/cpu || bool ||  ||
This option selects Intel Common CPU MP Init code. In
this common MP Init mechanism, the MP Init is occurring before
calling FSP Silicon Init. Hence, MP Init will be pulled to
BS_DEV_INIT_CHIPS Entry. And on Exit of BS_DEV_INIT, it is
ensured that all MTRRs are re-programmed based on the DRAM
resource settings.
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_CAR || soc/intel/common/block/cpu || bool ||  ||
This option allows you to select how cache-as-ram (CAR) is set up.
 
||
|- bgcolor="#eeeeee"
| INTEL_CAR_NEM || soc/intel/common/block/cpu || bool ||  ||
Traditionally, CAR is set up by using Non-Evict mode. This method
does not allow CAR and cache to co-exist, because cache fills are
blocked in NEM.
 
||
|- bgcolor="#eeeeee"
| INTEL_CAR_CQOS || soc/intel/common/block/cpu || bool ||  ||
Cache Quality of Service allows more fine-grained control of cache
usage. As result, it is possible to set up a portion of L2 cache for
CAR and use the remainder for actual caching.
 
||
|- bgcolor="#eeeeee"
| INTEL_CAR_NEM_ENHANCED || soc/intel/common/block/cpu || bool ||  ||
A current limitation of NEM (Non-Evict mode) is that code and data sizes
are derived from the requirement to not write out any modified cache line.
With NEM, if there is no physical memory behind the cached area,
the modified data will be lost and NEM results will be inconsistent.
ENHANCED NEM guarantees that modified data is always
kept in cache while clean data is replaced.
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_CSE || soc/intel/common/block/cse || bool ||  ||
Driver for communication with Converged Security Engine (CSE)
over Host Embedded Controller Interface (HECI)
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_PMC || soc/intel/common/block/pmc || bool ||  ||
Intel Processor common code for Power Management controller(PMC)
subsystem
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_SMBUS || soc/intel/common/block/smbus || bool ||  ||
Intel Processor common SMBus support
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_GPIO || soc/intel/common/block/gpio || bool ||  ||
Intel Processor common GPIO support
 
||
|- bgcolor="#eeeeee"
| DEBUG_SOC_COMMON_BLOCK_GPIO || soc/intel/common/block/gpio || bool || Output verbose GPIO debug messages ||
This option enables GPIO debug messages
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_SGX || soc/intel/common/block/sgx || bool ||  ||
Software Guard eXtension(SGX) Feature. Intel SGX is a set of new CPU
instructions that can be used by applications to set aside privat
regions of code and data.
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_I2C || soc/intel/common/block/i2c || bool ||  ||
Intel Processor Common I2C support
 
||
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_BLOCK_ITSS || soc/intel/common/block/itss || bool ||  ||
Intel Processor common interrupt timer subsystem support
 
||
 
||
|- bgcolor="#eeeeee"
| ACPI_CONSOLE || soc/intel/common || bool ||  ||
Provide a mechanism for serial console based ACPI debug.
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_LPSS_CLOCK_MHZ || soc/intel/common || int ||  ||
The clock speed that the controllers in LPSS(GSPI, I2C) are running
at, in MHz. No default is set here as this is an SOC-specific value
and must be provided by the SOC.
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_LPSS_I2C || soc/intel/common || bool ||  ||
This driver supports the Intel Low Power Subsystem (LPSS) I2C
controllers that are based on Synopsys DesignWare IP.
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_COMMON_LPSS_I2C_DEBUG || soc/intel/common || bool || Enable debug output for LPSS I2C transactions ||
Enable debug output for I2C transactions.  This can be useful
when debugging I2C drivers.
 
||
|- bgcolor="#eeeeee"
| MMA || soc/intel/common || bool || Enable MMA (Memory Margin Analysis) support for Intel Core ||
Set this option to y to enable MMA (Memory Margin Analysis) support
 
||
|- bgcolor="#eeeeee"
| ADD_VBT_DATA_FILE || soc/intel/common || bool || Add a Video Bios Table (VBT) binary to CBFS ||
Add a VBT file data file to CBFS. The VBT describes the integrated
GPU and connections, and is needed by FSP in order to initialize the
display.
 
||
|- bgcolor="#eeeeee"
| VBT_FILE || soc/intel/common || string || VBT binary path and filename ||
The path and filename of the VBT binary.
 
||
|- bgcolor="#eeeeee"
| TPM_TIS_ACPI_INTERRUPT || soc/intel/common || int ||  ||
acpi_get_gpe() is used to provide interrupt status to TPM layer.
This option specifies the GPE number.
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_FSP_BROADWELL_DE || soc/intel/fsp_broadwell_de || bool ||  ||
Broadwell-DE support using the Intel FSP.
 
||
|- bgcolor="#eeeeee"
| INTEGRATED_UART || soc/intel/fsp_broadwell_de || bool || Integrated UART ports ||
Use Broadwell-DE Integrated UART ports @3F8h and 2F8h.
 
||
|- bgcolor="#eeeeee"
| SERIRQ_CONTINUOUS_MODE || soc/intel/fsp_broadwell_de || bool ||  ||
If you set this option to y, the serial IRQ machine will be
operated in continuous mode.
 
||
|- bgcolor="#eeeeee"
| FSP_FILE || soc/intel/fsp_broadwell_de/fsp || string ||  ||
The path and filename of the Intel FSP binary for this platform.
 
||
|- bgcolor="#eeeeee"
| FSP_LOC || soc/intel/fsp_broadwell_de/fsp || hex ||  ||
The location in CBFS that the FSP is located. This must match the
value that is set in the FSP binary.  If the FSP needs to be moved,
rebase the FSP with Intel's BCT (tool).
 
The Broadwell-DE FSP is built with a preferred base address of
0xffeb0000.
 
||
|- bgcolor="#eeeeee"
| FSP_MEMORY_DOWN || soc/intel/fsp_broadwell_de/fsp || bool || Enable Memory Down ||
Load SPD data from ROM instead of trying to read from SMBus.
 
If the platform has DIMM sockets, say N. If memory is down, say Y and
supply the appropriate SPD data for each Channel/DIMM.
 
||
|- bgcolor="#eeeeee"
| FSP_MEMORY_DOWN_CH0DIMM0_SPD_PRESENT || soc/intel/fsp_broadwell_de/fsp || bool || Channel 0, DIMM 0 Present ||
Select Y if Channel 0, DIMM 0 is present.
 
||
|- bgcolor="#eeeeee"
| FSP_MEMORY_DOWN_CH0DIMM0_SPD_FILE || soc/intel/fsp_broadwell_de/fsp || string || Channel 0, DIMM 0 SPD File ||
Path to the file which contains the SPD data for Channel 0, DIMM 0.
 
||
|- bgcolor="#eeeeee"
| FSP_MEMORY_DOWN_CH0DIMM1_SPD_PRESENT || soc/intel/fsp_broadwell_de/fsp || bool || Channel 0, DIMM 1 Present ||
Select Y if Channel 0, DIMM 1 is present.
 
||
|- bgcolor="#eeeeee"
| FSP_MEMORY_DOWN_CH0DIMM1_SPD_FILE || soc/intel/fsp_broadwell_de/fsp || string || Channel 0, DIMM 1 SPD File ||
Path to the file which contains the SPD data for Channel 0, DIMM 1.
 
||
|- bgcolor="#eeeeee"
| FSP_MEMORY_DOWN_CH1DIMM0_SPD_PRESENT || soc/intel/fsp_broadwell_de/fsp || bool || Channel 1, DIMM 0 Present ||
Select Y if Channel 1, DIMM 0 is present.
 
||
|- bgcolor="#eeeeee"
| FSP_MEMORY_DOWN_CH1DIMM0_SPD_FILE || soc/intel/fsp_broadwell_de/fsp || string || Channel 1, DIMM 0 SPD File ||
Path to the file which contains the SPD data for Channel 1, DIMM 0.
 
||
|- bgcolor="#eeeeee"
| FSP_MEMORY_DOWN_CH1DIMM1_SPD_PRESENT || soc/intel/fsp_broadwell_de/fsp || bool || Channel 1, DIMM 1 Present ||
Select Y if Channel 1, DIMM 1 is present.
 
||
|- bgcolor="#eeeeee"
| FSP_MEMORY_DOWN_CH1DIMM1_SPD_FILE || soc/intel/fsp_broadwell_de/fsp || string || Channel 1, DIMM 1 SPD File ||
Path to the file which contains the SPD data for Channel 1, DIMM 1.
 
||
|- bgcolor="#eeeeee"
| FSP_HYPERTHREADING || soc/intel/fsp_broadwell_de/fsp || bool || Enable Hyper-Threading ||
Enable Intel(r) Hyper-Threading Technology for the Broadwell-DE SoC.
 
||
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_BROADWELL || soc/intel/broadwell || bool ||  ||
Intel Broadwell and Haswell ULT support.
 
||
|- bgcolor="#eeeeee"
| DCACHE_RAM_SIZE || soc/intel/broadwell || hex ||  ||
The size of the cache-as-ram region required during bootblock
and/or romstage. Note DCACHE_RAM_SIZE and DCACHE_RAM_MRC_VAR_SIZE
must add up to a power of 2.
 
||
|- bgcolor="#eeeeee"
| DCACHE_RAM_MRC_VAR_SIZE || soc/intel/broadwell || hex ||  ||
The amount of cache-as-ram region required by the reference code.
 
||
|- bgcolor="#eeeeee"
| HAVE_MRC || soc/intel/broadwell || bool || Add a Memory Reference Code binary ||
Select this option to add a Memory Reference Code binary to
the resulting coreboot image.
 
Note: Without this binary coreboot will not work
 
||
|- bgcolor="#eeeeee"
| MRC_FILE || soc/intel/broadwell || string || Intel Memory Reference Code path and filename ||
The filename of the file to use as Memory Reference Code binary.
 
||
|- bgcolor="#eeeeee"
| PRE_GRAPHICS_DELAY || soc/intel/broadwell || int || Graphics initialization delay in ms ||
On some systems, coreboot boots so fast that connected monitors
(mostly TVs) won't be able to wake up fast enough to talk to the
VBIOS. On those systems we need to wait for a bit before executing
the VBIOS.
 
||
|- bgcolor="#eeeeee"
| RESET_ON_INVALID_RAMSTAGE_CACHE || soc/intel/broadwell || bool || Reset the system on S3 wake when ramstage cache invalid. ||
The romstage code caches the loaded ramstage program in SMM space.
On S3 wake the romstage will copy over a fresh ramstage that was
cached in the SMM space. This option determines the action to take
when the ramstage cache is invalid. If selected the system will
reset otherwise the ramstage will be reloaded from cbfs.
 
||
|- bgcolor="#eeeeee"
| SERIRQ_CONTINUOUS_MODE || soc/intel/broadwell || bool ||  ||
If you set this option to y, the serial IRQ machine will be
operated in continuous mode.
 
||
|- bgcolor="#eeeeee"
| HAVE_REFCODE_BLOB || soc/intel/broadwell || bool || An external reference code blob should be put into cbfs. ||
The reference code blob will be placed into cbfs.
 
||
|- bgcolor="#eeeeee"
| REFCODE_BLOB_FILE || soc/intel/broadwell || string || Path and filename to reference code blob. ||
The path and filename to the file to be added to cbfs.
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_SKYLAKE || soc/intel/skylake || bool ||  ||
Intel Skylake support
 
||
|- bgcolor="#eeeeee"
| SOC_INTEL_KABYLAKE || soc/intel/skylake || bool ||  ||
Intel Kabylake support
 
||
|- bgcolor="#eeeeee"
| DCACHE_RAM_SIZE || soc/intel/skylake || hex ||  ||
The size of the cache-as-ram region required during bootblock
and/or romstage.
 
||
|- bgcolor="#eeeeee"
| DCACHE_BSP_STACK_SIZE || soc/intel/skylake || hex ||  ||
The amount of anticipated stack usage in CAR by bootblock and
other stages.
 
||
|- bgcolor="#eeeeee"
| EXCLUDE_NATIVE_SD_INTERFACE || soc/intel/skylake || bool ||  ||
If you set this option to n, will not use native SD controller.
 
||
|- bgcolor="#eeeeee"
| PCR_BASE_ADDRESS || soc/intel/skylake || hex ||  ||
This option allows you to select MMIO Base Address of sideband bus.
 
||
|- bgcolor="#eeeeee"
| SERIRQ_CONTINUOUS_MODE || soc/intel/skylake || bool ||  ||
If you set this option to y, the serial IRQ machine will be
operated in continuous mode.
 
||
|- bgcolor="#eeeeee"
| SKYLAKE_SOC_PCH_H || soc/intel/skylake || bool ||  ||
Choose this option if you have a PCH-H chipset.
 
||
|- bgcolor="#eeeeee"
| NHLT_DMIC_2CH || soc/intel/skylake || bool ||  ||
Include DSP firmware settings for 2 channel DMIC array.
 
||
|- bgcolor="#eeeeee"
| NHLT_DMIC_4CH || soc/intel/skylake || bool ||  ||
Include DSP firmware settings for 4 channel DMIC array.
 
||
|- bgcolor="#eeeeee"
| NHLT_NAU88L25 || soc/intel/skylake || bool ||  ||
Include DSP firmware settings for nau88l25 headset codec.
 
||
|- bgcolor="#eeeeee"
| NHLT_MAX98357 || soc/intel/skylake || bool ||  ||
Include DSP firmware settings for max98357 amplifier.
 
||
|- bgcolor="#eeeeee"
| NHLT_SSM4567 || soc/intel/skylake || bool ||  ||
Include DSP firmware settings for ssm4567 smart amplifier.
 
||
|- bgcolor="#eeeeee"
| NHLT_RT5514 || soc/intel/skylake || bool ||  ||
Include DSP firmware settings for rt5514 DSP.
 
||
|- bgcolor="#eeeeee"
| NHLT_RT5663 || soc/intel/skylake || bool ||  ||
Include DSP firmware settings for rt5663 headset codec.
 
||
|- bgcolor="#eeeeee"
| NHLT_MAX98927 || soc/intel/skylake || bool ||  ||
Include DSP firmware settings for max98927 amplifier.
 
||
|- bgcolor="#eeeeee"
| NHLT_MAX98927 || soc/intel/skylake || bool || Cache-as-ram implementation ||
This option allows you to select how cache-as-ram (CAR) is set up.
 
||
|- bgcolor="#eeeeee"
| CAR_NEM_ENHANCED || soc/intel/skylake || bool || Enhanced Non-evict mode ||
A current limitation of NEM (Non-Evict mode) is that code and data sizes
are derived from the requirement to not write out any modified cache line.
With NEM, if there is no physical memory behind the cached area,
the modified data will be lost and NEM results will be inconsistent.
ENHANCED NEM guarantees that modified data is always
kept in cache while clean data is replaced.
 
||
|- bgcolor="#eeeeee"
| USE_SKYLAKE_FSP_CAR || soc/intel/skylake || bool || Use FSP CAR ||
Use FSP APIs to initialize & tear Down the Cache-As-Ram.
 
||
|- bgcolor="#eeeeee"
| SKIP_FSP_CAR || soc/intel/skylake || bool || Skip cache as RAM setup in FSP ||
Skip Cache as RAM setup in FSP.
 
||
|- bgcolor="#eeeeee"
| NO_FADT_8042 || soc/intel/skylake || bool ||  ||
Choose this option if you want to disable 8042 Keyboard
 
||
|- bgcolor="#eeeeee"
| SOC_AMD_STONEYRIDGE_FP4 || soc/amd/stoneyridge || bool ||  ||
AMD Stoney Ridge FP4 support
 
||
|- bgcolor="#eeeeee"
| SOC_AMD_STONEYRIDGE_FT4 || soc/amd/stoneyridge || bool ||  ||
AMD Stoney Ridge FT4 support
 
||
|- bgcolor="#eeeeee"
| DCACHE_BSP_STACK_SIZE || soc/amd/stoneyridge || hex ||  ||
The amount of anticipated stack usage in CAR by bootblock and
other stages.
 
||
|- bgcolor="#eeeeee"
| BOTTOMIO_POSITION || soc/amd/stoneyridge || hex || Bottom of 32-bit IO space ||
If PCI peripherals with big BARs are connected to the system
the bottom of the IO must be decreased to allocate such
devices.
 
Declare the beginning of the 128MB-aligned MMIO region.  This
option is useful when PCI peripherals requesting large address
ranges are present.
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_ID || soc/amd/stoneyridge || string ||  ||
The default VGA BIOS PCI vendor/device ID should be set to the
result of the map_oprom_vendev() function in northbridge.c.
 
||
|- bgcolor="#eeeeee"
| STONEYRIDGE_XHCI_ENABLE || soc/amd/stoneyridge || bool || Enable Stoney Ridge XHCI Controller ||
The XHCI controller must be enabled and the XHCI firmware
must be added in order to have USB 3.0 support configured
by coreboot. The OS will be responsible for enabling the XHCI
controller if the the XHCI firmware is available but the
XHCI controller is not enabled by coreboot.
 
||
|- bgcolor="#eeeeee"
| STONEYRIDGE_XHCI_FWM || soc/amd/stoneyridge || bool || Add xhci firmware ||
Add Stoney Ridge XHCI Firmware to support the onboard USB 3.0
 
||
|- bgcolor="#eeeeee"
| STONEYRIDGE_IMC_FWM || soc/amd/stoneyridge || bool || Add IMC firmware ||
Add Stoney Ridge IMC Firmware to support the onboard fan control
 
||
|- bgcolor="#eeeeee"
| STONEYRIDGE_GEC_FWM || soc/amd/stoneyridge || bool ||  ||
Add Stoney Ridge GEC Firmware to support the onboard gigabit Ethernet MAC.
Must be connected to a Broadcom B50610 or B50610M PHY on the motherboard.
 
||
|- bgcolor="#eeeeee"
| STONEYRIDGE_SATA_MODE || soc/amd/stoneyridge || int || SATA Mode ||
Select the mode in which SATA should be driven.
The default is NATIVE.
0: NATIVE mode does not require a ROM.
2: AHCI may work with or without AHCI ROM. It depends on the payload support.
For example, seabios does not require the AHCI ROM.
3: LEGACY IDE
4: IDE to AHCI
5: AHCI7804: ROM Required, and AMD driver required in the OS.
6: IDE to AHCI7804: ROM Required, and AMD driver required in the OS.
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || NATIVE ||
|- bgcolor="#eeeeee"
| || || (comment) || || AHCI ||
|- bgcolor="#eeeeee"
| || || (comment) || || LEGACY IDE ||
|- bgcolor="#eeeeee"
| || || (comment) || || IDE to AHCI ||
|- bgcolor="#eeeeee"
| || || (comment) || || AHCI7804 ||
|- bgcolor="#eeeeee"
| || || (comment) || || IDE to AHCI7804 ||
|- bgcolor="#eeeeee"
| STONEYRIDGE_LEGACY_FREE || soc/amd/stoneyridge || bool || System is legacy free ||
Select y if there is no keyboard controller in the system.
This sets variables in AGESA and ACPI.
 
||
|- bgcolor="#eeeeee"
| AMDFW_OUTSIDE_CBFS || soc/amd/stoneyridge || bool ||  ||
The AMDFW (PSP) is typically locatable in cbfs.  Select this
option to manually attach the generated amdfw.rom at an
offset of 0x20000 from the bottom of the coreboot ROM image.
 
||
|- bgcolor="#eeeeee"
| SERIRQ_CONTINUOUS_MODE || soc/amd/stoneyridge || bool ||  ||
Set this option to y for serial IRQ in continuous mode.
Otherwise it is in quiet mode.
 
||
|- bgcolor="#eeeeee"
| STONEYRIDGE_ACPI_IO_BASE || soc/amd/stoneyridge || hex ||  ||
Base address for the ACPI registers.
This value must match the hardcoded value of AGESA.
 
||
|- bgcolor="#eeeeee"
| STONEYRIDGE_UART || soc/amd/stoneyridge || bool || UART controller on Stoney Ridge ||
There are two UART controllers in Stoney Ridge.
The UART registers are memory-mapped. UART
controller 0 registers range from FEDC_6000h
to FEDC_6FFFh. UART controller 1 registers
range from FEDC_8000h to FEDC_8FFFh.
 
||
|- bgcolor="#eeeeee"
| SOC_AMD_COMMON || soc/amd/common || bool ||  ||
common code for AMD SOCs
 
||
|- bgcolor="#eeeeee"
| SOC_AMD_COMMON_BLOCK || soc/amd/common/block || bool ||  ||
SoC driver for AMD common IP code
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || AMD SoC Common IP Code ||
|- bgcolor="#eeeeee"
| SOC_AMD_COMMON_BLOCK_CAR || soc/amd/common/block/cpu || bool ||  ||
This option allows the SOC to use a standard AMD cache-as-ram (CAR)
implementation.  CAR setup is built into bootblock and teardown in
romstage.  If it is not used the system must implement these functions
separately.
 
||
||
|- bgcolor="#eeeeee"
| SOC_AMD_COMMON_BLOCK_PSP || soc/amd/common/block/psp || bool ||  ||
This option builds in the Platform Security Processor initialization
functions.
 
||
 
||
|- bgcolor="#eeeeee"
| CYGNUS_DDR_AUTO_SELF_REFRESH_ENABLE || soc/broadcom/cygnus || bool || Enable DDR auto self-refresh ||
Warning: M0 expects that auto self-refresh is enabled. Modify
with caution.
 
 
||
|- bgcolor="#eeeeee"
| DEBUG_DRAM || soc/mediatek/mt8173 || bool || Output verbose DRAM related debug message ||
This option enables additional DRAM related debug messages.
 
||
|- bgcolor="#eeeeee"
| DEBUG_I2C || soc/mediatek/mt8173 || bool || Output verbose I2C related debug message ||
This option enables I2C related debug message.
 
||
|- bgcolor="#eeeeee"
| DEBUG_PMIC || soc/mediatek/mt8173 || bool || Output verbose PMIC related debug message ||
This option enables PMIC related debug message.
 
||
|- bgcolor="#eeeeee"
| DEBUG_PMIC_WRAP || soc/mediatek/mt8173 || bool || Output verbose PMIC WRAP related debug message ||
This option enables PMIC WRAP related debug message.
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_MVMAP2315_UART_ADDRESS || soc/marvell/mvmap2315 || hex ||  ||
Map the UART to the respective MMIO address
 
||
|- bgcolor="#eeeeee"
| TTYS0_BAUD || soc/marvell/mvmap2315 || int ||  ||
Baud rate for the UART
||
|- bgcolor="#eeeeee"
| IPQ_QFN_PART || soc/qualcomm/ipq40xx || bool ||  ||
Is the SoC a QFN part (as opposed to a BGA part)
 
||
|- bgcolor="#eeeeee"
| SBL_ELF || soc/qualcomm/ipq40xx || string || file name of the QCA SBL ELF ||
The path and filename of the binary blob containing
ipq40xx early initialization code, as supplied by the
vendor.
 
||
|- bgcolor="#eeeeee"
| SBL_UTIL_PATH || soc/qualcomm/ipq40xx || string || Path for utils to combine SBL_ELF and bootblock ||
Path for utils to combine SBL_ELF and bootblock
 
||
|- bgcolor="#eeeeee"
| SBL_BLOB || soc/qualcomm/ipq806x || string || file name of the Qualcomm SBL blob ||
The path and filename of the binary blob containing
ipq806x early initialization code, as supplied by the
vendor.
 
||
|- bgcolor="#eeeeee"
| RK3399_SPREAD_SPECTRUM_DDR || soc/rockchip/rk3399 || bool || Spread-spectrum DDR clock ||
Select Spread Spectrum Modulator (SSMOD) is a fully-digital circuit
used to modulate the frequency of the Silicon Creations’ Fractional
PLL in order to reduce EMI.
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || CPU ||
|- bgcolor="#eeeeee"
| RESET_ON_INVALID_RAMSTAGE_CACHE || cpu/intel/haswell || bool || Reset the system on S3 wake when ramstage cache invalid. ||
The haswell romstage code caches the loaded ramstage program
in SMM space. On S3 wake the romstage will copy over a fresh
ramstage that was cached in the SMM space. This option determines
the action to take when the ramstage cache is invalid. If selected
the system will reset otherwise the ramstage will be reloaded from
cbfs.
 
||
|- bgcolor="#eeeeee"
| CPU_INTEL_FIRMWARE_INTERFACE_TABLE || cpu/intel/fit || None ||  ||
This option selects building a Firmware Interface Table (FIT).
 
||
|- bgcolor="#eeeeee"
| CPU_INTEL_NUM_FIT_ENTRIES || cpu/intel/fit || int ||  ||
This option selects the number of empty entries in the FIT table.
 
||
||
|- bgcolor="#eeeeee"
| CPU_INTEL_TURBO_NOT_PACKAGE_SCOPED || cpu/intel/turbo || None ||  ||
This option indicates that the turbo mode setting is not package
scoped. i.e. enable_turbo() needs to be called on not just the bsp
 
||
||
|- bgcolor="#eeeeee"
| SET_VMX_LOCK_BIT || cpu/intel/common || bool || Set lock bit after configuring VMX ||
Although the Intel manual says you must set the lock bit in addition
to the VMX bit in order for VMX to work, this isn't strictly true, so
we have the option to leave it unlocked and allow the OS (e.g. Linux)
to manage things itself. This is beneficial for testing purposes as
there is no need to reflash the firmware just to toggle the lock bit.
However, leaving the lock bit unset will break Windows' detection of
VMX support and built-in virtualization features like Hyper-V.
 
||
|- bgcolor="#eeeeee"
| GEODE_VSA_FILE || cpu/amd/geode_gx2 || bool || Add a VSA image ||
Select this option if you have an AMD Geode GX2 vsa that you would
like to add to your ROM.
 
You will be able to specify the location and file name of the
image later.
 
||
|- bgcolor="#eeeeee"
| VSA_FILENAME || cpu/amd/geode_gx2 || string || AMD Geode GX2 VSA path and filename ||
The path and filename of the file to use as VSA.
 
||
|- bgcolor="#eeeeee"
| GEODE_VSA_FILE || cpu/amd/geode_lx || bool || Add a VSA image ||
Select this option if you have an AMD Geode LX vsa that you would
like to add to your ROM.
 
You will be able to specify the location and file name of the
image later.
 
||
|- bgcolor="#eeeeee"
| VSA_FILENAME || cpu/amd/geode_lx || string || AMD Geode LX VSA path and filename ||
The path and filename of the file to use as VSA.
 
||
|- bgcolor="#eeeeee"
| XIP_ROM_SIZE || cpu/amd/agesa || hex ||  ||
Overwride the default write through caching size as 1M Bytes.
On some AMD platforms, one socket supports 2 or more kinds of
processor family, compiling several CPU families agesa code
will increase the romstage size.
In order to execute romstage in place on the flash ROM,
more space is required to be set as write through caching.
 
||
|- bgcolor="#eeeeee"
| REDIRECT_IDS_HDT_CONSOLE_TO_SERIAL || cpu/amd/agesa/family10 || bool || Redirect AGESA IDS_HDT_CONSOLE to serial console ||
This Option allows you to redirect the AMD AGESA IDS_HDT_CONSOLE debug information to the serial console.
 
Warning: Only enable this option when debuging or tracing AMD AGESA code.
 
||
|- bgcolor="#eeeeee"
| CPU_AMD_SOCKET_G34 || cpu/amd/agesa/family15 || bool ||  ||
AMD G34 Socket
 
||
|- bgcolor="#eeeeee"
| CPU_AMD_SOCKET_C32 || cpu/amd/agesa/family15 || bool ||  ||
AMD C32 Socket
 
||
|- bgcolor="#eeeeee"
| CPU_AMD_SOCKET_AM3R2 || cpu/amd/agesa/family15 || bool ||  ||
AMD AM3r2 Socket
 
||
|- bgcolor="#eeeeee"
| REDIRECT_IDS_HDT_CONSOLE_TO_SERIAL || cpu/amd/agesa/family15 || bool || Redirect AGESA IDS_HDT_CONSOLE to serial console ||
This Option allows you to redirect the AMD AGESA IDS_HDT_CONSOLE debug information to the serial console.
 
Warning: Only enable this option when debuging or tracing AMD AGESA code.
 
||
|- bgcolor="#eeeeee"
| FORCE_AM1_SOCKET_SUPPORT || cpu/amd/agesa/family16kb || bool ||  ||
Force AGESA to ignore package type mismatch between CPU and northbridge
in memory code. This enables Socket AM1 support with current AGESA
version for Kabini platform.
Enable this option only if you have Socket AM1 board.
Note that the AGESA release shipped with coreboot does not officially
support the AM1 socket. Selecting this option might damage your hardware.
 
||
|- bgcolor="#eeeeee"
| XIP_ROM_SIZE || cpu/amd/pi || hex ||  ||
Overwride the default write through caching size as 1M Bytes.
On some AMD platforms, one socket supports 2 or more kinds of
processor family, compiling several CPU families agesa code
will increase the romstage size.
In order to execute romstage in place on the flash ROM,
more space is required to be set as write through caching.
 
||
|- bgcolor="#eeeeee"
| PARALLEL_MP || cpu/x86 || bool ||  ||
This option uses common MP infrastructure for bringing up APs
in parallel. It additionally provides a more flexible mechanism
for sequencing the steps of bringing up the APs.
 
||
|- bgcolor="#eeeeee"
| PARALLEL_MP_AP_WORK || cpu/x86 || bool ||  ||
Allow APs to do other work after initialization instead of going
to sleep.
 
||
|- bgcolor="#eeeeee"
| LAPIC_MONOTONIC_TIMER || cpu/x86 || bool ||  ||
Expose monotonic time using the local APIC.
 
||
|- bgcolor="#eeeeee"
| TSC_CONSTANT_RATE || cpu/x86 || bool ||  ||
This option asserts that the TSC ticks at a known constant rate.
Therefore, no TSC calibration is required.
 
||
|- bgcolor="#eeeeee"
| TSC_MONOTONIC_TIMER || cpu/x86 || bool ||  ||
Expose monotonic time using the TSC.
 
||
|- bgcolor="#eeeeee"
| TSC_SYNC_LFENCE || cpu/x86 || bool ||  ||
The CPU driver should select this if the CPU needs
to execute an lfence instruction in order to synchronize
rdtsc. This is true for all modern AMD CPUs.
 
||
|- bgcolor="#eeeeee"
| TSC_SYNC_MFENCE || cpu/x86 || bool ||  ||
The CPU driver should select this if the CPU needs
to execute an mfence instruction in order to synchronize
rdtsc. This is true for all modern Intel CPUs.
 
||
|- bgcolor="#eeeeee"
| NO_FIXED_XIP_ROM_SIZE || cpu/x86 || bool ||  ||
The XIP_ROM_SIZE Kconfig variable is used globally on x86
with the assumption that all chipsets utilize this value.
For the chipsets which do not use the variable it can lead
to unnecessary alignment constraints in cbfs for romstage.
Therefore, allow those chipsets a path to not be burdened.
 
||
|- bgcolor="#eeeeee"
| SMM_MODULE_HEAP_SIZE || cpu/x86 || hex ||  ||
This option determines the size of the heap within the SMM handler
modules.
 
||
|- bgcolor="#eeeeee"
| SERIALIZED_SMM_INITIALIZATION || cpu/x86 || bool ||  ||
On some CPUs, there is a race condition in SMM.
This can occur when both hyperthreads change SMM state
variables in parallel without coordination.
Setting this option serializes the SMM initialization
to avoid an ugly hang in the boot process at the cost
of a slightly longer boot time.
 
||
|- bgcolor="#eeeeee"
| X86_AMD_FIXED_MTRRS || cpu/x86 || bool ||  ||
This option informs the MTRR code to use the RdMem and WrMem fields
in the fixed MTRR MSRs.
 
||
|- bgcolor="#eeeeee"
| PLATFORM_USES_FSP1_0 || cpu/x86 || bool ||  ||
Selected for Intel processors/platform combinations that use the
Intel Firmware Support Package (FSP) 1.0 for initialization.
 
||
|- bgcolor="#eeeeee"
| MIRROR_PAYLOAD_TO_RAM_BEFORE_LOADING || cpu/x86 || bool ||  ||
On certain platforms a boot speed gain can be realized if mirroring
the payload data stored in non-volatile storage. On x86 systems the
payload would typically live in a memory-mapped SPI part. Copying
the SPI contents to RAM before performing the load can speed up
the boot process.
 
||
|- bgcolor="#eeeeee"
| SOC_SETS_MSRS || cpu/x86 || bool ||  ||
The SoC requires different access methods for reading and writing
the MSRs.  Use SoC specific routines to handle the MSR access.
 
||
||
|- bgcolor="#eeeeee"
| NO_CAR_GLOBAL_MIGRATION || cpu || bool ||  ||
This option is selected if there is no need to migrate CAR globals.
All stages which use CAR globals can directly access the variables
from their linked addresses.
 
||
|- bgcolor="#eeeeee"
| SMP || cpu || bool ||  ||
This option is used to enable certain functions to make coreboot
work correctly on symmetric multi processor (SMP) systems.
 
||
|- bgcolor="#eeeeee"
| AP_SIPI_VECTOR || cpu || hex ||  ||
This must equal address of ap_sipi_vector from bootblock build.
 
||
|- bgcolor="#eeeeee"
| MMX || cpu || bool ||  ||
Select MMX in your socket or model Kconfig if your CPU has MMX
streaming SIMD instructions. ROMCC can build more efficient
code if it can spill to MMX registers.
 
||
|- bgcolor="#eeeeee"
| SSE || cpu || bool ||  ||
Select SSE in your socket or model Kconfig if your CPU has SSE
streaming SIMD instructions. ROMCC can build more efficient
code if it can spill to SSE (aka XMM) registers.
 
||
|- bgcolor="#eeeeee"
| SSE2 || cpu || bool ||  ||
Select SSE2 in your socket or model Kconfig if your CPU has SSE2
streaming SIMD instructions. Some parts of coreboot can be built
with more efficient code if SSE2 instructions are available.
 
||
|- bgcolor="#eeeeee"
| USES_MICROCODE_HEADER_FILES || cpu || bool ||  ||
This is selected by a board or chipset to set the default for the
microcode source choice to a list of external microcode headers
 
||
|- bgcolor="#eeeeee"
| CPU_MICROCODE_CBFS_GENERATE || cpu || bool || Generate from tree ||
Select this option if you want microcode updates to be assembled when
building coreboot and included in the final image as a separate CBFS
file. Microcode will not be hard-coded into ramstage.
 
The microcode file may be removed from the ROM image at a later
time with cbfstool, if desired.
 
If unsure, select this option.
 
||
|- bgcolor="#eeeeee"
| CPU_MICROCODE_CBFS_EXTERNAL_HEADER || cpu || bool || Include external microcode header files ||
Select this option if you want to include external c header files
containing the CPU microcode. This will be included as a separate
file in CBFS.
 
A word of caution: only select this option if you are sure the
microcode that you have is newer than the microcode shipping with
coreboot.
 
The microcode file may be removed from the ROM image at a later
time with cbfstool, if desired.
 
If unsure, select "Generate from tree"
 
||
|- bgcolor="#eeeeee"
| CPU_MICROCODE_CBFS_NONE || cpu || bool || Do not include microcode updates ||
Select this option if you do not want CPU microcode included in CBFS.
Note that for some CPUs, the microcode is hard-coded into the source
tree and is not loaded from CBFS. In this case, microcode will still
be updated. There is a push to move all microcode to CBFS, but this
change is not implemented for all CPUs.
 
This option currently applies to:
- Intel SandyBridge/IvyBridge
- VIA Nano
 
Microcode may be added to the ROM image at a later time with cbfstool,
if desired.
 
If unsure, select "Generate from tree"
 
The GOOD:
Microcode updates intend to solve issues that have been discovered
after CPU production. The expected effect is that systems work as
intended with the updated microcode, but we have also seen cases where
issues were solved by not applying microcode updates.
 
The BAD:
Note that some operating system include these same microcode patches,
so you may need to also disable microcode updates in your operating
system for this option to have an effect.
 
The UGLY:
A word of CAUTION: some CPUs depend on microcode updates to function
correctly. Not updating the microcode may leave the CPU operating at
less than optimal performance, or may cause outright hangups.
There are CPUs where coreboot cannot properly initialize the CPU
without microcode updates
For example, if running with the factory microcode, some Intel
SandyBridge CPUs may hang when enabling CAR, or some VIA Nano CPUs
will hang when changing the frequency.
 
Make sure you have a way of flashing the ROM externally before
selecting this option.
 
||
|- bgcolor="#eeeeee"
| CPU_MICROCODE_MULTIPLE_FILES || cpu || bool ||  ||
Select this option to install separate microcode container files into
CBFS instead of using the traditional monolithic microcode file format.
 
||
|- bgcolor="#eeeeee"
| CPU_MICROCODE_HEADER_FILES || cpu || string || List of space separated microcode header files with the path ||
A list of one or more microcode header files with path from the
coreboot directory.  These should be separated by spaces.
 
||
|- bgcolor="#eeeeee"
| CPU_UCODE_BINARIES || cpu || string || Microcode binary path and filename ||
Some platforms have microcode in the blobs directory, and these can
be hardcoded in the makefiles.  For platforms with microcode
binaries that aren't in the makefile, set this option to pull
in the microcode.
 
This should contain the full path of the file for one or more
microcode binary files to include, separated by spaces.
 
If unsure, leave this blank.
 
||
||
|- bgcolor="#eeeeee"
| || || (comment) || || Northbridge ||
|- bgcolor="#eeeeee"
| I945_LVDS || northbridge/intel/i945 || string ||  ||
Selected by mainboards that use native graphics initialization
for the LVDS port. A linear framebuffer is only supported for
LVDS.
 
||
|- bgcolor="#eeeeee"
| OVERRIDE_CLOCK_DISABLE || northbridge/intel/i945 || bool ||  ||
Usually system firmware turns off system memory clock
signals to unused SO-DIMM slots to reduce EMI and power
consumption.
However, some boards do not like unused clock signals to
be disabled.
 
||
|- bgcolor="#eeeeee"
| MAXIMUM_SUPPORTED_FREQUENCY || northbridge/intel/i945 || int ||  ||
If non-zero, this designates the maximum DDR frequency
the board supports, despite what the chipset should be
capable of.
 
||
|- bgcolor="#eeeeee"
| CHECK_SLFRCS_ON_RESUME || northbridge/intel/i945 || int ||  ||
On some boards it may be neccessary to hard reset early
during resume from S3 if the SLFRCS register indicates that
a memory channel is not guaranteed to be in self-refresh.
On other boards the check always creates a false positive,
effectively making it impossible to resume.
 
||
|- bgcolor="#eeeeee"
| USE_NATIVE_RAMINIT || northbridge/intel/sandybridge || bool || Use native raminit ||
Select if you want to use coreboot implementation of raminit rather than
System Agent/MRC.bin. You should answer Y.
 
||
|- bgcolor="#eeeeee"
| NATIVE_RAMINIT_IGNORE_MAX_MEM_FUSES || northbridge/intel/sandybridge || bool || Ignore vendor programmed fuses that limit max. DRAM frequency ||
Ignore the mainboard's vendor programmed fuses that might limit the
maximum DRAM frequency. By selecting this option the fuses will be
ignored and the only limits on DRAM frequency are set by RAM's SPD and
hard fuses in southbridge's clockgen.
Disabled by default as it might causes system instability.
Handle with care!
 
||
|- bgcolor="#eeeeee"
| MMCONF_BASE_ADDRESS || northbridge/intel/sandybridge || hex ||  ||
We can optimize the native case but the MRC blob requires it
to be at 0xf0000000.
 
||
|- bgcolor="#eeeeee"
| MRC_FILE || northbridge/intel/sandybridge || string || Intel System Agent path and filename ||
The path and filename of the file to use as System Agent
binary.
 
||
|- bgcolor="#eeeeee"
| DCACHE_RAM_SIZE || northbridge/intel/haswell || hex ||  ||
The size of the cache-as-ram region required during bootblock
and/or romstage. Note DCACHE_RAM_SIZE and DCACHE_RAM_MRC_VAR_SIZE
must add up to a power of 2.
 
||
|- bgcolor="#eeeeee"
| DCACHE_RAM_MRC_VAR_SIZE || northbridge/intel/haswell || hex ||  ||
The amount of cache-as-ram region required by the reference code.
 
||
|- bgcolor="#eeeeee"
| DCACHE_RAM_ROMSTAGE_STACK_SIZE || northbridge/intel/haswell || hex ||  ||
The amount of anticipated stack usage from the data cache
during pre-ram ROM stage execution.
 
||
|- bgcolor="#eeeeee"
| HAVE_MRC || northbridge/intel/haswell || bool || Add a System Agent binary ||
Select this option to add a System Agent binary to
the resulting coreboot image.
 
Note: Without this binary coreboot will not work
 
||
|- bgcolor="#eeeeee"
| MRC_FILE || northbridge/intel/haswell || string || Intel System Agent path and filename ||
The path and filename of the file to use as System Agent
binary.
 
||
|- bgcolor="#eeeeee"
| PRE_GRAPHICS_DELAY || northbridge/intel/haswell || int || Graphics initialization delay in ms ||
On some systems, coreboot boots so fast that connected monitors
(mostly TVs) won't be able to wake up fast enough to talk to the
VBIOS. On those systems we need to wait for a bit before executing
the VBIOS.
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_ID || northbridge/intel/fsp_sandybridge || string ||  ||
This is the default PCI ID for the sandybridge/ivybridge graphics
devices.  This string names the vbios ROM in cbfs.  The following
PCI IDs will be remapped to load this ROM:
0x80860102, 0x8086010a, 0x80860112, 0x80860116
0x80860122, 0x80860126, 0x80860166
 
||
|- bgcolor="#eeeeee"
| FSP_FILE || northbridge/intel/fsp_sandybridge/fsp || string ||  ||
The path and filename of the Intel FSP binary for this platform.
 
||
|- bgcolor="#eeeeee"
| FSP_LOC || northbridge/intel/fsp_sandybridge/fsp || hex || Intel FSP Binary location in CBFS ||
The location in CBFS that the FSP is located. This must match the
value that is set in the FSP binary.  If the FSP needs to be moved,
rebase the FSP with the Intel's BCT (tool).
 
The Ivy Bridge Processor/Panther Point FSP is built with a preferred
base address of 0xFFF80000
 
||
 
||
|- bgcolor="#eeeeee"
| SDRAMPWR_4DIMM || northbridge/intel/i440bx || bool ||  ||
This option affects how the SDRAMC register is programmed.
Memory clock signals will not be routed properly if this option
is set wrong.
 
If your board has 4 DIMM slots, you must use select this option, in
your Kconfig file of the board. On boards with 3 DIMM slots,
do _not_ select this option.
 
||
||
|- bgcolor="#eeeeee"
| SET_TSEG_1MB || northbridge/intel/fsp_rangeley || bool || 1 MB ||
Set the TSEG area to 1 MB.
 
||
|- bgcolor="#eeeeee"
| SET_TSEG_2MB || northbridge/intel/fsp_rangeley || bool || 2 MB ||
Set the TSEG area to 2 MB.
 
||
|- bgcolor="#eeeeee"
| SET_TSEG_4MB || northbridge/intel/fsp_rangeley || bool || 4 MB ||
Set the TSEG area to 4 MB.
 
||
|- bgcolor="#eeeeee"
| SET_TSEG_8MB || northbridge/intel/fsp_rangeley || bool || 8 MB ||
Set the TSEG area to 8 MB.
||
|- bgcolor="#eeeeee"
| FSP_FILE || northbridge/intel/fsp_rangeley/fsp || string ||  ||
The path and filename of the Intel FSP binary for this platform.
 
||
|- bgcolor="#eeeeee"
| FSP_LOC || northbridge/intel/fsp_rangeley/fsp || hex ||  ||
The location in CBFS that the FSP is located. This must match the
value that is set in the FSP binary.  If the FSP needs to be moved,
rebase the FSP with Intel's BCT (tool).
 
The Rangeley FSP is built with a preferred base address of 0xFFF80000
 
||
|- bgcolor="#eeeeee"
| BOTTOMIO_POSITION || northbridge/amd/pi || hex || Bottom of 32-bit IO space ||
If PCI peripherals with big BARs are connected to the system
the bottom of the IO must be decreased to allocate such
devices.
 
Declare the beginning of the 128MB-aligned MMIO region.  This
option is useful when PCI peripherals requesting large address
ranges are present.
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_ID || northbridge/amd/pi/00630F01 || string ||  ||
The default VGA BIOS PCI vendor/device ID should be set to the
result of the map_oprom_vendev() function in northbridge.c.
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_ID || northbridge/amd/pi/00730F01 || string ||  ||
The default VGA BIOS PCI vendor/device ID should be set to the
result of the map_oprom_vendev() function in northbridge.c.
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_ID || northbridge/amd/pi/00660F01 || string ||  ||
The default VGA BIOS PCI vendor/device ID should be set to the
result of the map_oprom_vendev() function in northbridge.c.
 
||
|- bgcolor="#eeeeee"
| REDIRECT_NBCIMX_TRACE_TO_SERIAL || northbridge/amd/cimx/rd890 || bool || Redirect AMD Northbridge CIMX Trace to serial console ||
This Option allows you to redirect the AMD Northbridge CIMX
Trace debug information to the serial console.
 
Warning: Only enable this option when debuging or tracing AMD CIMX code.
 
||
|- bgcolor="#eeeeee"
| NO_MMCONF_SUPPORT || northbridge/amd/amdk8 || bool ||  ||
If you want to remove this, you need to make sure any access to CPU
nodes 0:18.0, 0:19.0, ...  continue to use PCI IO config access.
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_ID || northbridge/amd/agesa/family16kb || string ||  ||
The default VGA BIOS PCI vendor/device ID should be set to the
result of the map_oprom_vendev() function in northbridge.c.
 
||
|- bgcolor="#eeeeee"
| SVI_HIGH_FREQ || northbridge/amd/amdfam10 || bool ||  ||
Select this for boards with a Voltage Regulator able to operate
at 3.4 MHz in SVI mode. Ignored unless the AMD CPU is rev C3.
 
||
|- bgcolor="#6699dd"
! align="left" | Menu: HyperTransport setup || || || ||
|- bgcolor="#eeeeee"
| SVI_HIGH_FREQ || northbridge/amd/amdfam10 || bool || HyperTransport downlink width ||
This option sets the maximum permissible HyperTransport
downlink width.
 
Use of this option will only limit the autodetected HT width.
It will not (and cannot) increase the width beyond the autodetected
limits.
 
This is primarily used to work around poorly designed or laid out HT
traces on certain motherboards.
 
||
|- bgcolor="#eeeeee"
| LIMIT_HT_DOWN_WIDTH_16 || northbridge/amd/amdfam10 || bool || HyperTransport uplink width ||
This option sets the maximum permissible HyperTransport
uplink width.
 
Use of this option will only limit the autodetected HT width.
It will not (and cannot) increase the width beyond the autodetected
limits.
 
This is primarily used to work around poorly designed or laid out HT
traces on certain motherboards.
 
||
 
|- bgcolor="#eeeeee"
| || || (comment) || || Southbridge ||
|- bgcolor="#eeeeee"
| SERIRQ_CONTINUOUS_MODE || southbridge/intel/ibexpeak || bool ||  ||
If you set this option to y, the serial IRQ machine will be
operated in continuous mode.
 
||
|- bgcolor="#eeeeee"
| INTEL_LYNXPOINT_LP || southbridge/intel/lynxpoint || bool ||  ||
Set this option to y for Lynxpont LP (Haswell ULT).
 
||
|- bgcolor="#eeeeee"
| SERIRQ_CONTINUOUS_MODE || southbridge/intel/lynxpoint || bool ||  ||
If you set this option to y, the serial IRQ machine will be
operated in continuous mode.
 
||
|- bgcolor="#eeeeee"
| ME_MBP_CLEAR_LATE || southbridge/intel/lynxpoint || bool || Defer wait for ME MBP Cleared ||
If you set this option to y, the Management Engine driver
will defer waiting for the MBP Cleared indicator until the
finalize step.  This can speed up boot time if the ME takes
a long time to indicate this status.
 
||
|- bgcolor="#eeeeee"
| FINALIZE_USB_ROUTE_XHCI || southbridge/intel/lynxpoint || bool || Route all ports to XHCI controller in finalize step ||
If you set this option to y, the USB ports will be routed
to the XHCI controller during the finalize SMM callback.
 
||
|- bgcolor="#eeeeee"
| SERIRQ_CONTINUOUS_MODE || southbridge/intel/bd82x6x || bool ||  ||
If you set this option to y, the serial IRQ machine will be
operated in continuous mode.
 
||
|- bgcolor="#eeeeee"
| LOCK_SPI_ON_RESUME_RO || southbridge/intel/bd82x6x || bool || Lock all flash ROM sections on S3 resume ||
If the flash ROM shall be protected against write accesses from the
operating system (OS), the locking procedure has to be repeated after
each resume from S3. Select this if you never want to update the flash
ROM from within your OS. Notice: Even with this option, the write lock
has still to be enabled on the normal boot path (e.g. by the payload).
 
||
|- bgcolor="#eeeeee"
| LOCK_SPI_ON_RESUME_NO_ACCESS || southbridge/intel/bd82x6x || bool || Lock and disable reads all flash ROM sections on S3 resume ||
If the flash ROM shall be protected against all accesses from the
operating system (OS), the locking procedure has to be repeated after
each resume from S3. Select this if you never want to update the flash
ROM from within your OS. Notice: Even with this option, the lock
has still to be enabled on the normal boot path (e.g. by the payload).
 
||
|- bgcolor="#eeeeee"
| SERIRQ_CONTINUOUS_MODE || southbridge/intel/fsp_bd82x6x || bool ||  ||
If you set this option to y, the serial IRQ machine will be
operated in continuous mode.
 
||
|- bgcolor="#eeeeee"
| SERIRQ_CONTINUOUS_MODE || southbridge/intel/fsp_rangeley || bool ||  ||
If you set this option to y, the serial IRQ machine will be
operated in continuous mode.
 
||
|- bgcolor="#eeeeee"
| IFD_BIN_PATH || southbridge/intel/fsp_rangeley || string ||  ||
The path and filename to the descriptor.bin file.
 
||
|- bgcolor="#eeeeee"
| SERIRQ_CONTINUOUS_MODE || southbridge/intel/fsp_i89xx || bool ||  ||
If you set this option to y, the serial IRQ machine will be
operated in continuous mode.
 
||
|- bgcolor="#eeeeee"
| HUDSON_XHCI_ENABLE || southbridge/amd/pi/hudson || bool || Enable Hudson XHCI Controller ||
The XHCI controller must be enabled and the XHCI firmware
must be added in order to have USB 3.0 support configured
by coreboot. The OS will be responsible for enabling the XHCI
controller if the the XHCI firmware is available but the
XHCI controller is not enabled by coreboot.
 
||
|- bgcolor="#eeeeee"
| HUDSON_XHCI_FWM || southbridge/amd/pi/hudson || bool || Add xhci firmware ||
Add Hudson 2/3/4 XHCI Firmware to support the onboard USB 3.0
 
||
|- bgcolor="#eeeeee"
| HUDSON_IMC_FWM || southbridge/amd/pi/hudson || bool || Add IMC firmware ||
Add Hudson 2/3/4 IMC Firmware to support the onboard fan control
 
||
|- bgcolor="#eeeeee"
| HUDSON_GEC_FWM || southbridge/amd/pi/hudson || bool ||  ||
Add Hudson 2/3/4 GEC Firmware to support the onboard gigabit Ethernet MAC.
Must be connected to a Broadcom B50610 or B50610M PHY on the motherboard.
 
||
|- bgcolor="#eeeeee"
| HUDSON_SATA_MODE || southbridge/amd/pi/hudson || int || SATA Mode ||
Select the mode in which SATA should be driven. NATIVE AHCI, or RAID.
The default is NATIVE.
0: NATIVE mode does not require a ROM.
1: RAID mode must have the two ROM files.
2: AHCI may work with or without AHCI ROM. It depends on the payload support.
For example, seabios does not require the AHCI ROM.
3: LEGACY IDE
4: IDE to AHCI
5: AHCI7804: ROM Required, and AMD driver required in the OS.
6: IDE to AHCI7804: ROM Required, and AMD driver required in the OS.
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || NATIVE ||
|- bgcolor="#eeeeee"
| || || (comment) || || RAID ||
|- bgcolor="#eeeeee"
| || || (comment) || || AHCI ||
|- bgcolor="#eeeeee"
| || || (comment) || || LEGACY IDE ||
|- bgcolor="#eeeeee"
| || || (comment) || || IDE to AHCI ||
|- bgcolor="#eeeeee"
| || || (comment) || || AHCI7804 ||
|- bgcolor="#eeeeee"
| || || (comment) || || IDE to AHCI7804 ||
|- bgcolor="#eeeeee"
| RAID_ROM_ID || southbridge/amd/pi/hudson || string || RAID device PCI IDs ||
1022,7802 for SATA NON-RAID5 module, 1022,7803 for SATA RAID5 mode
 
||
|- bgcolor="#eeeeee"
| RAID_MISC_ROM_POSITION || southbridge/amd/pi/hudson || hex || RAID Misc ROM Position ||
The RAID ROM requires that the MISC ROM is located between the range
0xFFF0_0000 to 0xFFF0_FFFF. Also, it must 1K bytes aligned.
The CONFIG_ROM_SIZE must be larger than 0x100000.
 
||
|- bgcolor="#eeeeee"
| HUDSON_LEGACY_FREE || southbridge/amd/pi/hudson || bool || System is legacy free ||
Select y if there is no keyboard controller in the system.
This sets variables in AGESA and ACPI.
 
||
|- bgcolor="#eeeeee"
| AZ_PIN || southbridge/amd/pi/hudson || hex ||  ||
bit 1,0 - pin 0
bit 3,2 - pin 1
bit 5,4 - pin 2
bit 7,6 - pin 3
 
||
|- bgcolor="#eeeeee"
| AMDFW_OUTSIDE_CBFS || southbridge/amd/pi/hudson || hex ||  ||
The AMDFW (PSP) is typically locatable in cbfs.  Select this
option to manually attach the generated amdfw.rom at an
offset of 0x20000 from the bottom of the coreboot ROM image.
 
||
|- bgcolor="#eeeeee"
| SERIRQ_CONTINUOUS_MODE || southbridge/amd/pi/hudson || bool ||  ||
Set this option to y for serial IRQ in continuous mode.
Otherwise it is in quiet mode.
 
||
|- bgcolor="#eeeeee"
| HUDSON_ACPI_IO_BASE || southbridge/amd/pi/hudson || hex ||  ||
Base address for the ACPI registers.
This value must match the hardcoded value of AGESA.
 
||
|- bgcolor="#eeeeee"
| HUDSON_UART || southbridge/amd/pi/hudson || bool || UART controller on Kern ||
There are two UART controllers in Kern.
The UART registers are memory-mapped. UART
controller 0 registers range from FEDC_6000h
to FEDC_6FFFh. UART controller 1 registers
range from FEDC_8000h to FEDC_8FFFh.
 
||
 
||
||
|- bgcolor="#eeeeee"
| SATA_CONTROLLER_MODE || southbridge/amd/cimx/sb700 || hex ||  ||
0x0 = Native IDE mode.
0x1 = RAID mode.
0x2 = AHCI mode.
0x3 = Legacy IDE mode.
0x4 = IDE->AHCI mode.
0x5 = AHCI mode as 7804 ID (AMD driver).
0x6 = IDE->AHCI mode as 7804 ID (AMD driver).
 
||
|- bgcolor="#eeeeee"
| PCIB_ENABLE || southbridge/amd/cimx/sb700 || bool ||  ||
n = Disable PCI Bridge Device 14 Function 4.
y = Enable PCI Bridge Device 14 Function 4.
 
||
|- bgcolor="#eeeeee"
| ACPI_SCI_IRQ || southbridge/amd/cimx/sb700 || hex ||  ||
Set SCI IRQ to 9.
 
||
|- bgcolor="#eeeeee"
| REDIRECT_SBCIMX_TRACE_TO_SERIAL || southbridge/amd/cimx/sb700 || bool || Redirect AMD Southbridge CIMX Trace to serial console ||
This Option allows you to redirect the AMD Southbridge CIMX Trace
debug information to the serial console.
 
Warning: Only enable this option when debuging or tracing AMD CIMX code.
 
||
|- bgcolor="#eeeeee"
| ENABLE_IDE_COMBINED_MODE || southbridge/amd/cimx/sb800 || bool || Enable SATA IDE combined mode ||
If Combined Mode is enabled. IDE controller is exposed and
SATA controller has control over Port0 through Port3,
IDE controller has control over Port4 and Port5.
 
If Combined Mode is disabled, IDE controller is hidden and
SATA controller has full control of all 6 Ports when operating in non-IDE mode.
 
||
|- bgcolor="#eeeeee"
| IDE_COMBINED_MODE || southbridge/amd/cimx/sb800 || hex || SATA Mode ||
Select the mode in which SATA should be driven. NATIVE AHCI, or RAID.
The default is AHCI.
 
||
|- bgcolor="#eeeeee"
| SB800_SATA_IDE || southbridge/amd/cimx/sb800 || bool || NATIVE ||
NATIVE does not require a ROM.
 
||
|- bgcolor="#eeeeee"
| SB800_SATA_AHCI || southbridge/amd/cimx/sb800 || bool || AHCI ||
AHCI is the default and may work with or without AHCI ROM. It depends on the payload support.
For example, seabios does not require the AHCI ROM.
 
||
|- bgcolor="#eeeeee"
| SB800_SATA_RAID || southbridge/amd/cimx/sb800 || bool || RAID ||
sb800 RAID mode must have the two required ROM files.
 
||
|- bgcolor="#eeeeee"
| RAID_ROM_ID || southbridge/amd/cimx/sb800 || string || RAID device PCI IDs ||
1002,4392 for SATA NON-RAID5 module, 1002,4393 for SATA RAID5 mode
 
||
|- bgcolor="#eeeeee"
| RAID_MISC_ROM_POSITION || southbridge/amd/cimx/sb800 || hex || RAID Misc ROM Position ||
The RAID ROM requires that the MISC ROM is located between the range
0xFFF0_0000 to 0xFFF0_FFFF. Also, it must 1K bytes aligned.
The CONFIG_ROM_SIZE must larger than 0x100000.
 
||
|- bgcolor="#eeeeee"
| SB800_IMC_FWM || southbridge/amd/cimx/sb800 || bool || Add IMC firmware ||
Add SB800 / Hudson 1 IMC Firmware to support the onboard fan control.
 
||
|- bgcolor="#eeeeee"
| SB800_FWM_AT_FFFA0000 || southbridge/amd/cimx/sb800 || bool || 0xFFFA0000 ||
The IMC and GEC ROMs requires a 'signature' located at one of several
fixed locations in memory.  The location used shouldn't matter, just
select an area that doesn't conflict with anything else.
 
||
|- bgcolor="#eeeeee"
| SB800_FWM_AT_FFF20000 || southbridge/amd/cimx/sb800 || bool || 0xFFF20000 ||
The IMC and GEC ROMs requires a 'signature' located at one of several
fixed locations in memory.  The location used shouldn't matter, just
select an area that doesn't conflict with anything else.
 
||
|- bgcolor="#eeeeee"
| SB800_FWM_AT_FFE20000 || southbridge/amd/cimx/sb800 || bool || 0xFFE20000 ||
The IMC and GEC ROMs requires a 'signature' located at one of several
fixed locations in memory.  The location used shouldn't matter, just
select an area that doesn't conflict with anything else.
 
||
|- bgcolor="#eeeeee"
| SB800_FWM_AT_FFC20000 || southbridge/amd/cimx/sb800 || bool || 0xFFC20000 ||
The IMC and GEC ROMs requires a 'signature' located at one of several
fixed locations in memory.  The location used shouldn't matter, just
select an area that doesn't conflict with anything else.
 
||
|- bgcolor="#eeeeee"
| SB800_FWM_AT_FF820000 || southbridge/amd/cimx/sb800 || bool || 0xFF820000 ||
The IMC and GEC ROMs requires a 'signature' located at one of several
fixed locations in memory.  The location used shouldn't matter, just
select an area that doesn't conflict with anything else.
 
||
|- bgcolor="#eeeeee"
| EHCI_BAR || southbridge/amd/cimx/sb800 || hex || Fan Control ||
Select the method of SB800 fan control to be used.  None would be
for either fixed maximum speed fans connected to the SB800 or for
an external chip controlling the fan speeds.  Manual control sets
up the SB800 fan control registers.  IMC fan control uses the SB800
IMC to actively control the fan speeds.
 
||
|- bgcolor="#eeeeee"
| SB800_NO_FAN_CONTROL || southbridge/amd/cimx/sb800 || bool || None ||
No SB800 Fan control - Do not set up the SB800 fan control registers.
 
||
|- bgcolor="#eeeeee"
| SB800_MANUAL_FAN_CONTROL || southbridge/amd/cimx/sb800 || bool || Manual ||
Configure the SB800 fan control registers in devicetree.cb.
 
||
|- bgcolor="#eeeeee"
| SB800_IMC_FAN_CONTROL || southbridge/amd/cimx/sb800 || bool || IMC Based ||
Set up the SB800 to use the IMC based Fan controller.  This requires
the IMC ROM from AMD.  Configure the registers in devicetree.cb.
 
||
|- bgcolor="#eeeeee"
| SATA_CONTROLLER_MODE || southbridge/amd/cimx/sb900 || hex ||  ||
0x0 = Native IDE mode.
0x1 = RAID mode.
0x2 = AHCI mode.
0x3 = Legacy IDE mode.
0x4 = IDE->AHCI mode.
0x5 = AHCI mode as 7804 ID (AMD driver).
0x6 = IDE->AHCI mode as 7804 ID (AMD driver).
 
||
|- bgcolor="#eeeeee"
| PCIB_ENABLE || southbridge/amd/cimx/sb900 || bool ||  ||
n = Disable PCI Bridge Device 14 Function 4.
y = Enable PCI Bridge Device 14 Function 4.
 
||
|- bgcolor="#eeeeee"
| ACPI_SCI_IRQ || southbridge/amd/cimx/sb900 || hex ||  ||
Set SCI IRQ to 9.
 
||
|- bgcolor="#eeeeee"
| EXT_CONF_SUPPORT || southbridge/amd/sr5650 || bool || Enable PCI-E MMCONFIG support ||
Select to enable PCI-E MMCONFIG support on the SR5650.
 
||
|- bgcolor="#eeeeee"
| EXT_CONF_SUPPORT || southbridge/amd/rs690 || bool ||  ||
Select if RS690 should be setup to support MMCONF.
 
||
|- bgcolor="#eeeeee"
| HUDSON_XHCI_ENABLE || southbridge/amd/agesa/hudson || bool || Enable Hudson XHCI Controller ||
The XHCI controller must be enabled and the XHCI firmware
must be added in order to have USB 3.0 support configured
by coreboot. The OS will be responsible for enabling the XHCI
controller if the the XHCI firmware is available but the
XHCI controller is not enabled by coreboot.
 
||
|- bgcolor="#eeeeee"
| HUDSON_XHCI_FWM || southbridge/amd/agesa/hudson || bool || Add xhci firmware ||
Add Hudson 2/3/4 XHCI Firmware to support the onboard USB 3.0
 
||
|- bgcolor="#eeeeee"
| HUDSON_IMC_FWM || southbridge/amd/agesa/hudson || bool || Add imc firmware ||
Add Hudson 2/3/4 IMC Firmware to support the onboard fan control
 
||
|- bgcolor="#eeeeee"
| HUDSON_GEC_FWM || southbridge/amd/agesa/hudson || bool ||  ||
Add Hudson 2/3/4 GEC Firmware to support the onboard gigabit Ethernet MAC.
Must be connected to a Broadcom B50610 or B50610M PHY on the motherboard.
 
||
|- bgcolor="#eeeeee"
| HUDSON_SATA_MODE || southbridge/amd/agesa/hudson || int || SATA Mode ||
Select the mode in which SATA should be driven. NATIVE AHCI, or RAID.
The default is NATIVE.
0: NATIVE mode does not require a ROM.
1: RAID mode must have the two ROM files.
2: AHCI may work with or without AHCI ROM. It depends on the payload support.
For example, seabios does not require the AHCI ROM.
3: LEGACY IDE
4: IDE to AHCI
5: AHCI7804: ROM Required, and AMD driver required in the OS.
6: IDE to AHCI7804: ROM Required, and AMD driver required in the OS.
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || NATIVE ||
|- bgcolor="#eeeeee"
| || || (comment) || || RAID ||
|- bgcolor="#eeeeee"
| || || (comment) || || AHCI ||
|- bgcolor="#eeeeee"
| || || (comment) || || LEGACY IDE ||
|- bgcolor="#eeeeee"
| || || (comment) || || IDE to AHCI ||
|- bgcolor="#eeeeee"
| || || (comment) || || AHCI7804 ||
|- bgcolor="#eeeeee"
| || || (comment) || || IDE to AHCI7804 ||
|- bgcolor="#eeeeee"
| RAID_ROM_ID || southbridge/amd/agesa/hudson || string || RAID device PCI IDs ||
1022,7802 for SATA NON-RAID5 module, 1022,7803 for SATA RAID5 mode
 
||
|- bgcolor="#eeeeee"
| RAID_MISC_ROM_POSITION || southbridge/amd/agesa/hudson || hex || RAID Misc ROM Position ||
The RAID ROM requires that the MISC ROM is located between the range
0xFFF0_0000 to 0xFFF0_FFFF. Also, it must 1K bytes aligned.
The CONFIG_ROM_SIZE must be larger than 0x100000.
 
||
|- bgcolor="#eeeeee"
| HUDSON_LEGACY_FREE || southbridge/amd/agesa/hudson || bool || System is legacy free ||
Select y if there is no keyboard controller in the system.
This sets variables in AGESA and ACPI.
 
||
|- bgcolor="#eeeeee"
| AZ_PIN || southbridge/amd/agesa/hudson || hex ||  ||
bit 1,0 - pin 0
bit 3,2 - pin 1
bit 5,4 - pin 2
bit 7,6 - pin 3
||
|- bgcolor="#eeeeee"
| SOUTHBRIDGE_AMD_SB700_33MHZ_SPI || southbridge/amd/sb700 || bool || Enable high speed SPI clock ||
When set, the SPI clock will run at 33MHz instead
of the compatibility mode 16.5MHz.  Note that not
all ROMs are capable of 33MHz operation, so you
will need to verify this option is appropriate for
the ROM you are using.
 
||
|- bgcolor="#eeeeee"
| NO_EARLY_SMBUS || southbridge/amd/cs5536 || bool ||  ||
Skip the CS5536 early SMBUS initialization.
 
||
|- bgcolor="#eeeeee"
| EHCI_BAR || southbridge/amd/sb600 || hex || SATA Mode ||
Select the mode in which SATA should be driven. IDE or AHCI.
The default is IDE.
 
config SATA_MODE_IDE
bool "IDE"
 
config SATA_MODE_AHCI
bool "AHCI"
||
|- bgcolor="#eeeeee"
| || || (comment) || || Super I/O ||
|- bgcolor="#eeeeee"
| SUPERIO_ITE_ENV_CTRL_FAN16_CONFIG || superio/ite/common || bool ||  ||
Enable extended, 16-bit wide tacho counters.
 
||
|- bgcolor="#eeeeee"
| SUPERIO_ITE_ENV_CTRL_8BIT_PWM || superio/ite/common || bool ||  ||
PWM duty cycles are set in 8-bit registers (instead of 7 bit).
 
||
|- bgcolor="#eeeeee"
| SUPERIO_ITE_ENV_CTRL_PWM_FREQ2 || superio/ite/common || bool ||  ||
The second FAN controller has a separate frequency setting.
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || Embedded Controllers ||
|- bgcolor="#eeeeee"
| EC_ACPI || ec/acpi || bool ||  ||
ACPI Embedded Controller interface. Mostly found in laptops.
 
||
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC || ec/google/chromeec || bool ||  ||
Google's Chrome EC
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_ACPI_MEMMAP || ec/google/chromeec || bool ||  ||
When defined, ACPI accesses EC memmap data on ports 66h/62h. When
not defined, the memmap data is instead accessed on 900h-9ffh via
the LPC bus.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_I2C || ec/google/chromeec || bool ||  ||
Google's Chrome EC via I2C bus.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_I2C_PROTO3 || ec/google/chromeec || bool ||  ||
Use only proto3 for i2c EC communication.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_LPC || ec/google/chromeec || bool ||  ||
Google Chrome EC via LPC bus.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_MEC || ec/google/chromeec || bool ||  ||
Microchip EC variant for LPC register access.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_PD || ec/google/chromeec || bool ||  ||
Indicates that Google's Chrome USB PD chip is present.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_SPI || ec/google/chromeec || bool ||  ||
Google's Chrome EC via SPI bus.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_SPI_WAKEUP_DELAY_US || ec/google/chromeec || int ||  ||
Force delay after asserting /CS to allow EC to wakeup.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_BOARDNAME || ec/google/chromeec || string || Chrome EC board name for EC ||
The board name used in the Chrome EC code base to build
the EC firmware.  If set, the coreboot build with also
build the EC firmware and add it to the image.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_PD_BOARDNAME || ec/google/chromeec || string || Chrome EC board name for PD ||
The board name used in the Chrome EC code base to build
the PD firmware.  If set, the coreboot build with also
build the EC firmware and add it to the image.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_RTC || ec/google/chromeec || bool || Enable Chrome OS EC RTC ||
Enable support for the real-time clock on the Chrome OS EC. This
uses the EC_CMD_RTC_GET_VALUE command to read the current time.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_FIRMWARE_NONE || ec/google/chromeec || bool || No EC firmware is included ||
Disable building and including any EC firmware in the image.
 
config EC_GOOGLE_CHROMEEC_FIRMWARE_EXTERNAL
bool "External EC firmware is included"
help
Include EC firmware binary in the image from an external source.
It is expected to be built externally.
 
config EC_GOOGLE_CHROMEEC_FIRMWARE_BUILTIN
bool "Builtin EC firmware is included"
help
Build and include EC firmware binary in the image.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_FIRMWARE_FILE || ec/google/chromeec || string || Chrome EC firmware path and filename ||
The path and filename of the EC firmware file to use.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_PD_FIRMWARE_NONE || ec/google/chromeec || bool || No PD firmware is included ||
Disable building and including any PD firmware in the image.
 
config EC_GOOGLE_CHROMEEC_PD_FIRMWARE_EXTERNAL
bool "External PD firmware is included"
help
Include PD firmware binary in the image from an external source.
It is expected to be built externally.
 
config EC_GOOGLE_CHROMEEC_PD_FIRMWARE_BUILTIN
bool "Builtin PD firmware is included"
help
Build and include PD firmware binary in the image.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_PD_FIRMWARE_FILE || ec/google/chromeec || string || Chrome EC firmware path and filename for PD ||
The path and filename of the PD firmware file to use.
 
||
|- bgcolor="#eeeeee"
| EC_GOOGLE_CHROMEEC_SWITCHES || ec/google/chromeec || bool ||  ||
Enable support for Chrome OS mode switches provided by the Chrome OS
EC.
 
||
||
|- bgcolor="#eeeeee"
| EC_QUANTA_IT8518 || ec/quanta/it8518 || bool ||  ||
Interface to QUANTA IT8518 Embedded Controller.
 
||
||
|- bgcolor="#eeeeee"
| EC_QUANTA_ENE_KB3940Q || ec/quanta/ene_kb3940q || bool ||  ||
Interface to QUANTA ENE KB3940Q Embedded Controller.
 
||
||
|- bgcolor="#eeeeee"
| EC_HP_KBC1126 || ec/hp/kbc1126 || bool ||  ||
Interface to SMSC KBC1126 embedded controller in HP laptops.
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || Please select the following otherwise your laptop cannot be powered on. ||
|- bgcolor="#eeeeee"
| KBC1126_FIRMWARE || ec/hp/kbc1126 || bool || Add firmware images for KBC1126 EC ||
Select this option to add the two firmware blobs for KBC1126.
You need these two blobs to power on your machine.
 
||
|- bgcolor="#eeeeee"
| KBC1126_FW1 || ec/hp/kbc1126 || string || KBC1126 firmware #1 path and filename ||
The path and filename of the file to use as KBC1126 firmware #1.
You can use util/kbc1126/kbc1126_ec_dump to dump it from the
vendor firmware.
 
||
|- bgcolor="#eeeeee"
| KBC1126_FW2 || ec/hp/kbc1126 || string || KBC1126 filename #2 path and filename ||
The path and filename of the file to use as KBC1126 firmware #2.
You can use util/kbc1126/kbc1126_ec_dump to dump it from the
vendor firmware.
 
||
|- bgcolor="#eeeeee"
| EC_RODA_IT8518 || ec/roda/it8518 || bool ||  ||
Interface to IT8518 embedded controller in Roda notebooks.
 
||
||
|- bgcolor="#eeeeee"
| EC_SMSC_MEC1308 || ec/smsc/mec1308 || bool ||  ||
Shared memory mailbox interface to SMSC MEC1308 Embedded Controller.
 
||
||
|- bgcolor="#eeeeee"
| EC_PURISM_LIBREM || ec/purism/librem || bool ||  ||
Purism Librem EC
 
||
||
|- bgcolor="#eeeeee"
| EC_COMPAL_ENE932 || ec/compal/ene932 || bool ||  ||
Interface to COMPAL ENE932 Embedded Controller.
 
||
||
|- bgcolor="#eeeeee"
| EC_KONTRON_IT8516E || ec/kontron/it8516e || bool ||  ||
Kontron uses an ITE IT8516E on the KTQM77. Its firmware might
come from Fintek (mentioned as Finte*c* somewhere in their Linux
driver).
The KTQM77 is an embedded board and the IT8516E seems to be
only used for fan control and GPIO.
 
||
||
|- bgcolor="#eeeeee"
| || || (comment) || || Intel FSP ||
|- bgcolor="#eeeeee"
| HAVE_FSP_BIN || drivers/intel/fsp1_0 || bool || Use Intel Firmware Support Package ||
Select this option to add an Intel FSP binary to
the resulting coreboot image.
 
Note: Without this binary, coreboot builds relying on the FSP
will not boot
 
||
|- bgcolor="#eeeeee"
| FSP_FILE || drivers/intel/fsp1_0 || string || Intel FSP binary path and filename ||
The path and filename of the Intel FSP binary for this platform.
 
||
|- bgcolor="#eeeeee"
| FSP_LOC || drivers/intel/fsp1_0 || hex || Intel FSP Binary location in CBFS ||
The location in CBFS that the FSP is located. This must match the
value that is set in the FSP binary.  If the FSP needs to be moved,
rebase the FSP with Intel's BCT (tool).
 
||
|- bgcolor="#eeeeee"
| ENABLE_FSP_FAST_BOOT || drivers/intel/fsp1_0 || bool || Enable Fast Boot ||
Enabling this feature will force the MRC data to be cached in NV
storage to be used for speeding up boot time on future reboots
and/or power cycles.
 
||
|- bgcolor="#eeeeee"
| ENABLE_MRC_CACHE || drivers/intel/fsp1_0 || bool ||  ||
Enabling this feature will cause MRC data to be cached in NV storage.
This can either be used for fast boot, or just because the FSP wants
it to be saved.
 
||
|- bgcolor="#eeeeee"
| MRC_CACHE_FMAP || drivers/intel/fsp1_0 || bool || Use MRC Cache in FMAP ||
Use the region "RW_MRC_CACHE" in FMAP instead of "mrc.cache" in CBFS.
You must define a region in your FMAP named "RW_MRC_CACHE".
 
||
|- bgcolor="#eeeeee"
| MRC_CACHE_SIZE || drivers/intel/fsp1_0 || hex || Fast Boot Data Cache Size ||
This is the amount of space in NV storage that is reserved for the
fast boot data cache storage.
 
WARNING: Because this area will be erased and re-written, the size
should be a full sector of the flash ROM chip and nothing else should
be included in CBFS in any sector that the fast boot cache data is in.
 
||
|- bgcolor="#eeeeee"
| VIRTUAL_ROM_SIZE || drivers/intel/fsp1_0 || hex || Virtual ROM Size ||
This is used to calculate the offset of the MRC data cache in NV
Storage for fast boot.  If in doubt, leave this set to the default
which sets the virtual size equal to the ROM size.
 
Example: Cougar Canyon 2 has two 8 MB SPI ROMs.  When the SPI ROMs are
loaded with a 4 MB coreboot image, the virtual ROM size is 8 MB.  When
the SPI ROMs are loaded with an 8 MB coreboot image, the virtual ROM
size is 16 MB.
 
||
|- bgcolor="#eeeeee"
| CACHE_ROM_SIZE_OVERRIDE || drivers/intel/fsp1_0 || hex || Cache ROM Size ||
This is the size of the cachable area that is passed into the FSP in
the early initialization.  Typically this should be the size of the CBFS
area, but the size must be a power of 2 whereas the CBFS size does not
have this limitation.
 
||
|- bgcolor="#eeeeee"
| USE_GENERIC_FSP_CAR_INC || drivers/intel/fsp1_0 || bool ||  ||
The chipset can select this to use a generic cache_as_ram.inc file
that should be good for all FSP based platforms.
 
||
|- bgcolor="#eeeeee"
| FSP_USES_UPD || drivers/intel/fsp1_0 || bool ||  ||
If this FSP uses UPD/VPD data regions, select this in the chipset Kconfig.
||
|- bgcolor="#eeeeee"
| HAVE_INTEL_FIRMWARE || southbridge/intel/common/firmware || bool ||  ||
Chipset uses the Intel Firmware Descriptor to describe the
layout of the SPI ROM chip.
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || Intel Firmware ||
|- bgcolor="#eeeeee"
| HAVE_IFD_BIN || southbridge/intel/common/firmware || bool || Add Intel descriptor.bin file ||
The descriptor binary
 
||
|- bgcolor="#eeeeee"
| EM100 || southbridge/intel/common/firmware || bool || Configure IFD for EM100 usage ||
Set SPI frequency to 20MHz and disable Dual Output Fast Read Support
 
||
|- bgcolor="#eeeeee"
| HAVE_ME_BIN || southbridge/intel/common/firmware || bool || Add Intel ME/TXE firmware ||
The Intel processor in the selected system requires a special firmware
for an integrated controller.  This might be called the Management
Engine (ME), the Trusted Execution Engine (TXE) or something else
depending on the chip. This firmware might or might not be available
in coreboot's 3rdparty/blobs repository. If it is not and if you don't
have access to the firmware from elsewhere, you can still build
coreboot without it. In this case however, you'll have to make sure
that you don't overwrite your ME/TXE firmware on your flash ROM.
 
||
|- bgcolor="#eeeeee"
| CHECK_ME || southbridge/intel/common/firmware || bool || Verify the integrity of the supplied ME/TXE firmware ||
Verify the integrity of the supplied Intel ME/TXE firmware before
proceeding with the build, in order to prevent an accidental loading
of a corrupted ME/TXE image.
 
||
|- bgcolor="#eeeeee"
| USE_ME_CLEANER || southbridge/intel/common/firmware || bool || Strip down the Intel ME/TXE firmware ||
Use me_cleaner to remove all the non-fundamental code from the Intel
ME/TXE firmware.
The resulting Intel ME/TXE firmware will have only the code
responsible for the very basic hardware initialization, leaving the
ME/TXE subsystem essentially in a disabled state.
 
Don't flash a modified ME/TXE firmware and a new coreboot image at the
same time, test them in two different steps.
 
WARNING: this tool isn't based on any official Intel documentation but
only on reverse engineering and trial & error.
 
See the project's page
https://github.com/corna/me_cleaner
or the wiki
https://github.com/corna/me_cleaner/wiki/How-to-apply-me_cleaner
https://github.com/corna/me_cleaner/wiki/How-does-it-work%3F
https://github.com/corna/me_cleaner/wiki/me_cleaner-status
for more info about this tool
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || Please test the modified ME/TXE firmware and coreboot in two steps ||
|- bgcolor="#eeeeee"
| HAVE_GBE_BIN || southbridge/intel/common/firmware || bool || Add gigabit ethernet firmware ||
The integrated gigabit ethernet controller needs a firmware file.
Select this if you are going to use the PCH integrated controller
and have the firmware.
 
||
|- bgcolor="#eeeeee"
| HAVE_EC_BIN || southbridge/intel/common/firmware || bool || Add EC firmware ||
The embedded controller needs a firmware file.
 
Select this if you are going to use the PCH integrated controller
and have the EC firmware. EC firmware will be added to final image
through ifdtool.
 
||
|- bgcolor="#eeeeee"
| BUILD_WITH_FAKE_IFD || southbridge/intel/common/firmware || bool || Build with a fake IFD ||
If you don't have an Intel Firmware Descriptor (descriptor.bin) for your
board, you can select this option and coreboot will build without it.
The resulting coreboot.rom will not contain all parts required
to get coreboot running on your board. You can however write only the
BIOS section to your board's flash ROM and keep the other sections
untouched. Unfortunately the current version of flashrom doesn't
support this yet. But there is a patch pending [1].
 
WARNING: Never write a complete coreboot.rom to your flash ROM if it
was built with a fake IFD. It just won't work.
 
[1] http://www.flashrom.org/pipermail/flashrom/2013-June/011083.html
 
||
|- bgcolor="#eeeeee"
| IFD_BIOS_SECTION || southbridge/intel/common/firmware || string || BIOS Region Starting:Ending addresses within the ROM ||
The BIOS region is typically the size of the CBFS area, and is located
at the end of the ROM space.
 
For an 8MB ROM with a 3MB CBFS area, this would look like:
0x00500000:0x007fffff
 
||
|- bgcolor="#eeeeee"
| IFD_ME_SECTION || southbridge/intel/common/firmware || string || ME/TXE Region Starting:Ending addresses within the ROM ||
The ME/TXE region typically starts at around 0x1000 and often fills the
ROM space not used by CBFS.
 
For an 8MB ROM with a 3MB CBFS area, this might look like:
0x00001000:0x004fffff
 
||
|- bgcolor="#eeeeee"
| IFD_GBE_SECTION || southbridge/intel/common/firmware || string || GBE Region Starting:Ending addresses within the ROM ||
The Gigabit Ethernet ROM region is used when an Intel NIC is built into
the Southbridge/SOC and the platform uses this device instead of an external
PCIe NIC.  It will be located between the ME/TXE and the BIOS region.
 
Leave this empty if you're unsure.
 
||
|- bgcolor="#eeeeee"
| IFD_PLATFORM_SECTION || southbridge/intel/common/firmware || string || Platform Region Starting:Ending addresses within the Rom ||
The Platform region is used for platform specific data.
It will be located between the ME/TXE and the BIOS region.
 
Leave this empty if you're unsure.
 
||
|- bgcolor="#eeeeee"
| LOCK_MANAGEMENT_ENGINE || southbridge/intel/common/firmware || bool || Lock ME/TXE section ||
The Intel Firmware Descriptor supports preventing write accesses
from the host to the ME or TXE section in the firmware
descriptor. If the section is locked, it can only be overwritten
with an external SPI flash programmer. You will want this if you
want to increase security of your ROM image once you are sure
that the ME/TXE firmware is no longer going to change.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| CBFS_SIZE || southbridge/intel/common/firmware || hex ||  ||
Reduce CBFS size to give room to the IFD blobs.
 
||
|- bgcolor="#6699dd"
! align="left" | Menu: Verified Boot (vboot) || || || ||
|- bgcolor="#eeeeee"
| VBOOT || vboot || bool || Verify firmware with vboot. ||
Enabling VBOOT will use vboot to verify the components of the firmware
(stages, payload, etc).
 
||
|- bgcolor="#eeeeee"
| VBOOT_VBNV_CMOS || vboot || bool ||  ||
VBNV is stored in CMOS
 
||
|- bgcolor="#eeeeee"
| VBOOT_VBNV_OFFSET || vboot || hex ||  ||
CMOS offset for VbNv data. This value must match cmos.layout
in the mainboard directory, minus 14 bytes for the RTC.
 
||
|- bgcolor="#eeeeee"
| VBOOT_VBNV_CMOS_BACKUP_TO_FLASH || vboot || bool ||  ||
Vboot non-volatile storage data will be backed up from CMOS to flash
and restored from flash if the CMOS is invalid due to power loss.
 
||
|- bgcolor="#eeeeee"
| VBOOT_VBNV_EC || vboot || bool ||  ||
VBNV is stored in EC
 
||
|- bgcolor="#eeeeee"
| VBOOT_VBNV_FLASH || vboot || bool ||  ||
VBNV is stored in flash storage
 
||
|- bgcolor="#eeeeee"
| VBOOT_STARTS_IN_BOOTBLOCK || vboot || bool ||  ||
Firmware verification happens during the end of or right after the
bootblock. This implies that a static VBOOT2_WORK() buffer must be
allocated in memlayout.
 
||
|- bgcolor="#eeeeee"
| VBOOT_STARTS_IN_ROMSTAGE || vboot || bool ||  ||
Firmware verification happens during the end of romstage (after
memory initialization). This implies that vboot working data is
allocated in CBMEM.
 
||
|- bgcolor="#eeeeee"
| VBOOT_MOCK_SECDATA || vboot || bool || Mock secdata for firmware verification ||
Enabling VBOOT_MOCK_SECDATA will mock secdata for the firmware
verification to avoid access to a secdata storage (typically TPM).
All operations for a secdata storage will be successful. This option
can be used during development when a TPM is not present or broken.
THIS SHOULD NOT BE LEFT ON FOR PRODUCTION DEVICES.
 
||
|- bgcolor="#eeeeee"
| VBOOT_DISABLE_DEV_ON_RECOVERY || vboot || bool ||  ||
When this option is enabled, the Chrome OS device leaves the
developer mode as soon as recovery request is detected. This is
handy on embedded devices with limited input capabilities.
 
||
|- bgcolor="#eeeeee"
| VBOOT_SEPARATE_VERSTAGE || vboot || bool ||  ||
If this option is set, vboot verification runs in a standalone stage
that is loaded from the bootblock and exits into romstage. If it is
not set, the verification code is linked directly into the bootblock
or the romstage and runs as part of that stage (cf. related options
VBOOT_STARTS_IN_BOOTBLOCK/_ROMSTAGE and VBOOT_RETURN_FROM_VERSTAGE).
 
||
|- bgcolor="#eeeeee"
| VBOOT_RETURN_FROM_VERSTAGE || vboot || bool ||  ||
If this is set, the verstage returns back to the calling stage instead
of exiting to the succeeding stage so that the verstage space can be
reused by the succeeding stage. This is useful if a RAM space is too
small to fit both the verstage and the succeeding stage.
 
||
|- bgcolor="#eeeeee"
| VBOOT_SAVE_RECOVERY_REASON_ON_REBOOT || vboot || bool ||  ||
This option ensures that the recovery request is not lost because of
reboots caused after vboot verification is run. e.g. reboots caused by
FSP components on Intel platforms.
 
||
|- bgcolor="#eeeeee"
| VBOOT_OPROM_MATTERS || vboot || bool ||  ||
Set this option to indicate to vboot that this platform will skip its
display initialization on a normal (non-recovery, non-developer) boot.
Vboot calls this "oprom matters" because on x86 devices this
traditionally meant that the video option ROM will not be loaded, but
it works functionally the same for other platforms that can skip their
native display initialization code instead.
 
||
|- bgcolor="#eeeeee"
| VBOOT_HAS_REC_HASH_SPACE || vboot || bool ||  ||
Set this option to indicate to vboot that recovery data hash space
is present in TPM.
 
||
|- bgcolor="#eeeeee"
| VBOOT_EC_SOFTWARE_SYNC || vboot || bool || Enable EC software sync ||
EC software sync is a mechanism where the AP helps the EC verify its
firmware similar to how vboot verifies the main system firmware. This
option selects whether vboot should support EC software sync.
 
||
|- bgcolor="#eeeeee"
| VBOOT_EC_SLOW_UPDATE || vboot || bool ||  ||
Whether the EC (or PD) is slow to update and needs to display a
screen that informs the user the update is happening.
 
||
|- bgcolor="#eeeeee"
| VBOOT_PHYSICAL_DEV_SWITCH || vboot || bool ||  ||
Whether this platform has a physical developer switch. Note that this
disables virtual dev switch functionality (through secdata). Operation
where both a physical pin and the virtual switch get sampled is not
supported by coreboot.
 
||
|- bgcolor="#eeeeee"
| VBOOT_PHYSICAL_REC_SWITCH || vboot || bool ||  ||
Whether this platform has a physical recovery switch.
 
||
|- bgcolor="#eeeeee"
| VBOOT_LID_SWITCH || vboot || bool ||  ||
Whether this platform has a lid switch. If it does, vboot will not
decrement try counters for boot failures if the lid is closed.
 
||
|- bgcolor="#eeeeee"
| VBOOT_WIPEOUT_SUPPORTED || vboot || bool ||  ||
When this option is enabled, the firmware provides the ability to
signal the application the need for factory reset (a.k.a. wipe
out) of the device
 
||
|- bgcolor="#eeeeee"
| VBOOT_FWID_MODEL || vboot || string || Firmware ID model ||
This is the first part of the FWID written to various regions of a
vboot firmware image to identify its version.
 
||
|- bgcolor="#eeeeee"
| VBOOT_FWID_VERSION || vboot || string || Firmware ID version ||
This is the second part of the FWID written to various regions of a
vboot firmware image to identify its version.
 
||
|- bgcolor="#6699dd"
! align="left" | Menu: GBB configuration || || || ||
 
|- bgcolor="#6699dd"
! align="left" | Menu: Vboot Keys || || || ||
 
 
|- bgcolor="#6699dd"
! align="left" | Menu: AMD Platform Initialization || || || ||
|- bgcolor="#eeeeee"
| None || vendorcode/amd || None || AGESA source ||
Select the method for including the AMD Platform Initialization
code into coreboot.  Platform Initialization code is required for
all AMD processors.
 
||
|- bgcolor="#eeeeee"
| CPU_AMD_AGESA_BINARY_PI || vendorcode/amd || bool || binary PI ||
Use a binary PI package.  Generally, these will be stored in the
"3rdparty/blobs" directory.  For some processors, these must be obtained
directly from AMD Embedded Processors Group
(http://www.amdcom/embedded).
 
||
|- bgcolor="#eeeeee"
| CPU_AMD_AGESA_OPENSOURCE || vendorcode/amd || bool || open-source AGESA ||
Build the PI package ("AGESA") from source code in the "vendorcode"
directory.
 
||
|- bgcolor="#eeeeee"
| AGESA_BINARY_PI_VENDORCODE_PATH || vendorcode/amd/pi || string || AGESA PI directory path ||
Specify where to find the AGESA header files
for AMD platform initialization.
 
||
|- bgcolor="#eeeeee"
| AGESA_BINARY_PI_FILE || vendorcode/amd/pi || string || AGESA PI binary file name ||
Specify the binary file to use for AMD platform initialization.
 
||
|- bgcolor="#eeeeee"
| AGESA_BINARY_PI_LOCATION || vendorcode/amd/pi || hex || AGESA PI binary address in ROM ||
Specify the ROM address at which to store the binary Platform
Initialization code.
 
||
 
|- bgcolor="#6699dd"
! align="left" | Menu: ChromeOS || || || ||
|- bgcolor="#eeeeee"
| CHROMEOS || vendorcode/google/chromeos || bool || Build for ChromeOS ||
Enable ChromeOS specific features like the GPIO sub table in
the coreboot table. NOTE: Enabling this option on an unsupported
board will most likely break your build.
 
||
|- bgcolor="#eeeeee"
| NO_TPM_RESUME || vendorcode/google/chromeos || bool ||  ||
On some boards the TPM stays powered up in S3. On those
boards, booting Windows will break if the TPM resume command
is sent during an S3 resume.
 
||
|- bgcolor="#eeeeee"
| HAVE_REGULATORY_DOMAIN || vendorcode/google/chromeos || bool || Add regulatory domain methods ||
This option is needed to add ACPI regulatory domain methods
 
||
|- bgcolor="#eeeeee"
| CHROMEOS_DISABLE_PLATFORM_HIERARCHY_ON_RESUME || vendorcode/google/chromeos || bool ||  ||
Disable the platform heirarchy on resume path if the firmware
is involved in resume. The hierarchy is disabled prior to jumping
to the OS.  Note that this option is sepcific to TPM2 boards.
This option is auto selected if CHROMEOS because it matches with
vboot_reference model which disables the platform hierarchy in
the boot loader. However, those operations need to be symmetric
on normal boot as well as resume and coreboot is only involved
in the resume piece w.r.t. the platform hierarchy.
 
||
 
|- bgcolor="#eeeeee"
| GOOGLE_SMBIOS_MAINBOARD_VERSION || vendorcode/google || bool ||  ||
Provide a common implementation for mainboard version,
which returns a formatted 'rev%d' board_id() string.
 
||
||
|- bgcolor="#eeeeee"
| ARM64_SECURE_OS_FILE || arch/arm64 || string || Secure OS binary file ||
Secure OS binary file.
 
||
|- bgcolor="#eeeeee"
| ARM64_A53_ERRATUM_843419 || arch/arm64 || bool ||  ||
Some early Cortex-A53 revisions had a hardware bug that results in
incorrect address calculations in rare cases. This option enables a
linker workaround to avoid those cases if your toolchain supports it.
Should be selected automatically by SoCs that are affected.
 
||
||
|- bgcolor="#eeeeee"
| USE_MARCH_586 || arch/x86 || bool ||  ||
Allow a platform or processor to select to be compiled using
the '-march=i586' option instead of the typical '-march=i686'
 
||
|- bgcolor="#eeeeee"
| CBMEM_TOP_BACKUP || arch/x86 || bool ||  ||
Platform implements non-volatile storage to cache cbmem_top()
over stage transitions and optionally also over S3 suspend.
 
||
|- bgcolor="#eeeeee"
| LATE_CBMEM_INIT || arch/x86 || bool ||  ||
Enable this in chipset's Kconfig if northbridge does not implement
early get_top_of_ram() call for romstage. CBMEM tables will be
allocated late in ramstage, after PCI devices resources are known.
 
||
|- bgcolor="#eeeeee"
| PRERAM_CBMEM_CONSOLE_SIZE || arch/x86 || hex ||  ||
Increase this value if preram cbmem console is getting truncated
 
||
|- bgcolor="#eeeeee"
| BOOTBLOCK_DEBUG_SPINLOOP || arch/x86 || bool ||  ||
Add a spin (JMP .) in bootblock_crt0.S during early bootblock to wait
for a JTAG debugger to break into the execution sequence.
 
||
|- bgcolor="#eeeeee"
| BOOTBLOCK_SAVE_BIST_AND_TIMESTAMP || arch/x86 || bool ||  ||
Select this value to provide a routine to save the BIST and timestamp
values.  The default code places the BIST value in MM0 and the
timestamp value in MM2:MM1.  Another file is necessary when the CPU
does not support the MMx register set.
 
||
|- bgcolor="#eeeeee"
| VERSTAGE_DEBUG_SPINLOOP || arch/x86 || bool ||  ||
Add a spin (JMP .) in assembly_entry.S during early verstage to wait
for a JTAG debugger to break into the execution sequence.
 
||
|- bgcolor="#eeeeee"
| ROMSTAGE_DEBUG_SPINLOOP || arch/x86 || bool ||  ||
Add a spin (JMP .) in assembly_entry.S during early romstage to wait
for a JTAG debugger to break into the execution sequence.
 
||
|- bgcolor="#eeeeee"
| SKIP_MAX_REBOOT_CNT_CLEAR || arch/x86 || bool || Do not clear reboot count after successful boot ||
Do not clear the reboot count immediately after successful boot.
Set to allow the payload to control normal/fallback image recovery.
Note that it is the responsibility of the payload to reset the
normal boot bit to 1 after each successsful boot.
 
||
 
||
 
|- bgcolor="#6699dd"
! align="left" | Menu: Devices || || || ||
|- bgcolor="#eeeeee"
| HAVE_VGA_TEXT_FRAMEBUFFER || device || bool ||  ||
Selected by graphics drivers that support legacy VGA text mode.
 
||
|- bgcolor="#eeeeee"
| HAVE_VBE_LINEAR_FRAMEBUFFER || device || bool ||  ||
Selected by graphics drivers that can set up a VBE linear-framebuffer
mode.
 
||
|- bgcolor="#eeeeee"
| HAVE_LINEAR_FRAMEBUFFER || device || bool ||  ||
Selected by graphics drivers that can set up a generic linear
framebuffer.
 
||
|- bgcolor="#eeeeee"
| HAVE_FSP_GOP || device || bool ||  ||
Selected by drivers that support to run a blob that implements
the Graphics Output Protocol (GOP).
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_HAS_NATIVE_VGA_INIT || device || bool ||  ||
Selected by mainboards / drivers that provide native graphics
init within coreboot.
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_FORCE_NATIVE_VGA_INIT || device || bool ||  ||
Selected by mainboards / chipsets whose graphics driver can't or
shouldn't be disabled.
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_HAS_LIBGFXINIT || device || bool ||  ||
Selected by mainboards that implement support for `libgfxinit`.
Usually this requires a list of ports to be probed for displays.
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_DO_NATIVE_VGA_INIT || device || bool || Use native graphics init ||
Some mainboards, such as the Google Link, allow initializing the
display without the need of a binary only VGA OPROM. Enabling this
option may be faster, but also lacks flexibility in setting modes.
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_USE_LIBGFXINIT || device || bool || Use libgfxinit ||
Use the SPARK library `libgfxinit` for the native graphics
initialization. This requires an Ada toolchain.
 
||
|- bgcolor="#eeeeee"
| RUN_FSP_GOP || device || bool || Run a GOP driver ||
Some platforms (e.g. Intel Braswell and Skylake/Kaby Lake) support
to run a GOP blob. This option enables graphics initialization with
such a blob.
 
||
|- bgcolor="#eeeeee"
| VGA_ROM_RUN || device || bool || Run VGA Option ROMs ||
Execute VGA Option ROMs in coreboot if found. This can be used
to enable PCI/AGP/PCI-E video cards when not using a SeaBIOS
payload.
 
When using a SeaBIOS payload it runs all option ROMs with much
more complete BIOS interrupt services available than coreboot,
which some option ROMs require in order to function correctly.
 
||
|- bgcolor="#eeeeee"
| NO_GFX_INIT || device || bool || None ||
Select this to not perform any graphics initialization in
coreboot. This is useful if the payload (e.g. SeaBIOS) can
initialize graphics or if pre-boot graphics are not required.
 
||
|- bgcolor="#eeeeee"
| S3_VGA_ROM_RUN || device || bool || Re-run VGA Option ROMs on S3 resume ||
Execute VGA Option ROMs in coreboot when resuming from S3 suspend.
 
When using a SeaBIOS payload it runs all option ROMs with much
more complete BIOS interrupt services available than coreboot,
which some option ROMs require in order to function correctly.
 
If unsure, say N when using SeaBIOS as payload, Y otherwise.
 
||
|- bgcolor="#eeeeee"
| ALWAYS_LOAD_OPROM || device || bool ||  ||
Always load option ROMs if any are found. The decision to run
the ROM is still determined at runtime, but the distinction
between loading and not running comes into play for CHROMEOS.
 
An example where this is required is that VBT (Video BIOS Tables)
are needed for the kernel's display driver to know how a piece of
hardware is configured to be used.
 
||
|- bgcolor="#eeeeee"
| ON_DEVICE_ROM_LOAD || device || bool || Load Option ROMs on PCI devices ||
Load Option ROMs stored on PCI/PCIe/AGP VGA devices in coreboot.
 
If disabled, only Option ROMs stored in CBFS will be executed by
coreboot. If you are concerned about security, you might want to
disable this option, but it might leave your system in a state of
degraded functionality.
 
When using a SeaBIOS payload it runs all option ROMs with much
more complete BIOS interrupt services available than coreboot,
which some option ROMs require in order to function correctly.
 
If unsure, say N when using SeaBIOS as payload, Y otherwise.
 
||
|- bgcolor="#eeeeee"
| PCI_OPTION_ROM_RUN_REALMODE || device || bool || Native mode ||
If you select this option, PCI Option ROMs will be executed
natively on the CPU in real mode. No CPU emulation is involved,
so this is the fastest, but also the least secure option.
(only works on x86/x64 systems)
 
||
|- bgcolor="#eeeeee"
| PCI_OPTION_ROM_RUN_YABEL || device || bool || Secure mode ||
If you select this option, the x86emu CPU emulator will be used to
execute PCI Option ROMs.
 
This option prevents Option ROMs from doing dirty tricks with the
system (such as installing SMM modules or hypervisors), but it is
also significantly slower than the native Option ROM initialization
method.
 
This is the default choice for non-x86 systems.
 
||
|- bgcolor="#eeeeee"
| YABEL_PCI_ACCESS_OTHER_DEVICES || device || bool || Allow Option ROMs to access other devices ||
Per default, YABEL only allows Option ROMs to access the PCI device
that they are associated with. However, this causes trouble for some
onboard graphics chips whose Option ROM needs to reconfigure the
north bridge.
 
||
|- bgcolor="#eeeeee"
| YABEL_PCI_FAKE_WRITING_OTHER_DEVICES_CONFIG || device || bool || Fake success on writing other device's config space ||
By default, YABEL aborts when the Option ROM tries to write to other
devices' config spaces. With this option enabled, the write doesn't
follow through, but the Option ROM is allowed to go on.
This can create issues such as hanging Option ROMs (if it depends on
that other register changing to the written value), so test for
impact before using this option.
 
||
|- bgcolor="#eeeeee"
| YABEL_VIRTMEM_LOCATION || device || hex || Location of YABEL's virtual memory ||
YABEL requires 1MB memory for its CPU emulation. This memory is
normally located at 16MB.
 
||
|- bgcolor="#eeeeee"
| YABEL_DIRECTHW || device || bool || Direct hardware access ||
YABEL consists of two parts: It uses x86emu for the CPU emulation and
additionally provides a PC system emulation that filters bad device
and memory access (such as PCI config space access to other devices
than the initialized one).
 
When choosing this option, x86emu will pass through all hardware
accesses to memory and I/O devices to the underlying memory and I/O
addresses. While this option prevents Option ROMs from doing dirty
tricks with the CPU (such as installing SMM modules or hypervisors),
they can still access all devices in the system.
Enable this option for a good compromise between security and speed.
 
||
|- bgcolor="#6699dd"
! align="left" | Menu: Display || || || ||
|- bgcolor="#eeeeee"
| FRAMEBUFFER_SET_VESA_MODE || device || bool || Set framebuffer graphics resolution ||
Set VESA/native framebuffer mode (needed for bootsplash and graphical framebuffer console)
 
||
|- bgcolor="#eeeeee"
| FRAMEBUFFER_SET_VESA_MODE || device || bool || framebuffer graphics resolution ||
This option sets the resolution used for the coreboot framebuffer (and
bootsplash screen).
 
||
|- bgcolor="#eeeeee"
| BOOTSPLASH || device || bool || Show graphical bootsplash ||
This option shows a graphical bootsplash screen. The graphics are
loaded from the CBFS file bootsplash.jpg.
 
You can either specify the location and file name of the
image in the 'General' section or add it manually to CBFS, using,
for example, cbfstool.
 
||
|- bgcolor="#eeeeee"
| VGA_TEXT_FRAMEBUFFER || device || bool || Legacy VGA text mode ||
If this option is enabled, coreboot will initialize graphics in
legacy VGA text mode or, if a VGA BIOS is used and a VESA mode set,
switch to text mode before handing control to a payload.
 
||
|- bgcolor="#eeeeee"
| VBE_LINEAR_FRAMEBUFFER || device || bool || VESA framebuffer ||
This option keeps the framebuffer mode set after coreboot finishes
execution. If this option is enabled, coreboot will pass a
framebuffer entry in its coreboot table and the payload will need a
compatible driver.
 
||
|- bgcolor="#eeeeee"
| GENERIC_LINEAR_FRAMEBUFFER || device || bool || Linear \"high-resolution\" framebuffer ||
This option enables a high-resolution, linear framebuffer. If this
option is enabled, coreboot will pass a framebuffer entry in its
coreboot table and the payload will need a compatible driver.
 
||
 
|- bgcolor="#eeeeee"
| PCIEXP_COMMON_CLOCK || device || bool || Enable PCIe Common Clock ||
Detect and enable Common Clock on PCIe links.
 
||
|- bgcolor="#eeeeee"
| PCIEXP_ASPM || device || bool || Enable PCIe ASPM ||
Detect and enable ASPM (Active State Power Management) on PCIe links.
 
||
|- bgcolor="#eeeeee"
| PCIEXP_CLK_PM || device || bool || Enable PCIe Clock Power Management ||
Detect and enable Clock Power Management on PCIe.
 
||
|- bgcolor="#eeeeee"
| PCIEXP_L1_SUB_STATE || device || bool || Enable PCIe ASPM L1 SubState ||
Detect and enable ASPM on PCIe links.
 
||
|- bgcolor="#eeeeee"
| EARLY_PCI_BRIDGE || device || bool || Early PCI bridge ||
While coreboot is executing code from ROM, the coreboot resource
allocator has not been running yet. Hence PCI devices living behind
a bridge are not yet visible to the system.
 
This option enables static configuration for a single pre-defined
PCI bridge function on bus 0.
 
||
|- bgcolor="#eeeeee"
| SUBSYSTEM_VENDOR_ID || device || hex || Override PCI Subsystem Vendor ID ||
This config option will override the devicetree settings for
PCI Subsystem Vendor ID.
 
||
|- bgcolor="#eeeeee"
| SUBSYSTEM_DEVICE_ID || device || hex || Override PCI Subsystem Device ID ||
This config option will override the devicetree settings for
PCI Subsystem Device ID.
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS || device || bool || Add a VGA BIOS image ||
Select this option if you have a VGA BIOS image that you would
like to add to your ROM.
 
You will be able to specify the location and file name of the
image later.
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_FILE || device || string || VGA BIOS path and filename ||
The path and filename of the file to use as VGA BIOS.
 
||
|- bgcolor="#eeeeee"
| VGA_BIOS_ID || device || string || VGA device PCI IDs ||
The comma-separated PCI vendor and device ID that would associate
your VGA BIOS to your video card.
 
Example: 1106,3230
 
In the above example 1106 is the PCI vendor ID (in hex, but without
the "0x" prefix) and 3230 specifies the PCI device ID of the
video card (also in hex, without "0x" prefix).
 
Under GNU/Linux you can run `lspci -nn` to list the IDs of your PCI devices.
 
||
|- bgcolor="#eeeeee"
| INTEL_MBI || device || bool || Add an MBI image ||
Select this option if you have an Intel MBI image that you would
like to add to your ROM.
 
You will be able to specify the location and file name of the
image later.
 
||
|- bgcolor="#eeeeee"
| MBI_FILE || device || string || Intel MBI path and filename ||
The path and filename of the file to use as VGA BIOS.
 
||
|- bgcolor="#eeeeee"
| SOFTWARE_I2C || device || bool || Enable I2C controller emulation in software ||
This config option will enable code to override the i2c_transfer
routine with a (simple) software emulation of the protocol. This may
be useful for debugging or on platforms where a driver for the real
I2C controller is not (yet) available. The platform code needs to
provide bindings to manually toggle I2C lines.
 
||
 
|- bgcolor="#6699dd"
! align="left" | Menu: Generic Drivers || || || ||
|- bgcolor="#eeeeee"
| ELOG || drivers/elog || bool || Support for flash based event log ||
Enable support for flash based event logging.
 
||
|- bgcolor="#eeeeee"
| ELOG_CBMEM || drivers/elog || bool || Store a copy of ELOG in CBMEM ||
This option will have ELOG store a copy of the flash event log
in a CBMEM region and export that address in SMBIOS to the OS.
This is useful if the ELOG location is not in memory mapped flash,
but it means that events added at runtime via the SMI handler
will not be reflected in the CBMEM copy of the log.
 
||
|- bgcolor="#eeeeee"
| ELOG_GSMI || drivers/elog || bool || SMI interface to write and clear event log ||
This interface is compatible with the linux kernel driver
available with CONFIG_GOOGLE_GSMI and can be used to write
kernel reset/shutdown messages to the event log.
 
||
|- bgcolor="#eeeeee"
| ELOG_BOOT_COUNT || drivers/elog || bool || Maintain a monotonic boot number in CMOS ||
Store a monotonic boot number in CMOS and provide an interface
to read the current value and increment the counter.  This boot
counter will be logged as part of the System Boot event.
 
||
|- bgcolor="#eeeeee"
| ELOG_BOOT_COUNT_CMOS_OFFSET || drivers/elog || int || Offset in CMOS to store the boot count ||
This value must be greater than 16 bytes so as not to interfere
with the standard RTC region.  Requires 8 bytes.
 
||
# Use "select HAVE_USBDEBUG" on southbridges which have Debug Port code.
||
|- bgcolor="#eeeeee"
| USBDEBUG || drivers/usb || bool || USB 2.0 EHCI debug dongle support ||
This option allows you to use a so-called USB EHCI Debug device
(such as the Ajays NET20DC, AMIDebug RX, or a system using the
Linux "EHCI Debug Device gadget" driver found in recent kernel)
to retrieve the coreboot debug messages (instead, or in addition
to, a serial port).
 
This feature is NOT supported on all chipsets in coreboot!
 
It also requires a USB2 controller which supports the EHCI
Debug Port capability.
 
See https://www.coreboot.org/EHCI_Debug_Port for an up-to-date list
of supported controllers.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| USBDEBUG_IN_ROMSTAGE || drivers/usb || bool || Enable early (pre-RAM) usbdebug ||
Configuring USB controllers in system-agent binary may cause
problems to usbdebug. Disabling this option delays usbdebug to
be setup on entry to ramstage.
 
If unsure, say Y.
 
||
|- bgcolor="#eeeeee"
| USBDEBUG_HCD_INDEX || drivers/usb || int || Index for EHCI controller to use with usbdebug ||
Some boards have multiple EHCI controllers with possibly only
one having the Debug Port capability on an external USB port.
 
Mapping of this index to PCI device functions is southbridge
specific and mainboard level Kconfig should already provide
a working default value here.
 
||
|- bgcolor="#eeeeee"
| USBDEBUG_DEFAULT_PORT || drivers/usb || int || Default USB port to use as Debug Port ||
Selects which physical USB port usbdebug dongle is connected to.
Setting of 0 means to scan possible ports starting from 1.
 
Intel platforms have hardwired the debug port location and this
setting makes no difference there.
 
Hence, if you select the correct port here, you can speed up
your boot time. Which USB port number refers to which actual
port on your mainboard (potentially also USB pin headers on
your mainboard) is highly board-specific, and you'll likely
have to find out by trial-and-error.
 
||
|- bgcolor="#eeeeee"
| USBDEBUG_DONGLE_BEAGLEBONE || drivers/usb || bool || BeagleBone ||
Use this to configure the USB hub on BeagleBone board.
 
||
|- bgcolor="#eeeeee"
| USBDEBUG_DONGLE_BEAGLEBONE_BLACK || drivers/usb || bool || BeagleBone Black ||
Use this with BeagleBone Black.
 
||
|- bgcolor="#eeeeee"
| USBDEBUG_DONGLE_FTDI_FT232H || drivers/usb || bool || FTDI FT232H UART ||
Use this with FT232H usb-to-uart. Configuration is hard-coded
to use 8n1, no flow control.
 
||
|- bgcolor="#eeeeee"
| USBDEBUG_DONGLE_FTDI_FT232H_BAUD || drivers/usb || int || FTDI FT232H baud rate ||
Select baud rate for FT232H in the range 733..12,000,000. Make
sure that your receiving side supports the same setting and your
connection works with it. Multiples of 115,200 seem to be a good
choice, and EHCI debug usually can't saturate more than 576,000.
 
||
|- bgcolor="#eeeeee"
| COMMON_CBFS_SPI_WRAPPER || drivers/spi || bool ||  ||
Use common wrapper to interface CBFS to SPI bootrom.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH || drivers/spi || bool ||  ||
Select this option if your chipset driver needs to store certain
data in the SPI flash.
 
||
|- bgcolor="#eeeeee"
| BOOT_DEVICE_SPI_FLASH_BUS || drivers/spi || int ||  ||
Which SPI bus the boot device is connected to.
 
||
|- bgcolor="#eeeeee"
| BOOT_DEVICE_SPI_FLASH_RW_NOMMAP || drivers/spi || bool ||  ||
Provide common implementation of the RW boot device that
doesn't provide mmap() operations.
 
||
|- bgcolor="#eeeeee"
| BOOT_DEVICE_SPI_FLASH_RW_NOMMAP_EARLY || drivers/spi || bool ||  ||
Include the common implementation in all stages, including the
early ones.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_SMM || drivers/spi || bool || SPI flash driver support in SMM ||
Select this option if you want SPI flash support in SMM.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_NO_FAST_READ || drivers/spi || bool || Disable Fast Read command ||
Select this option if your setup requires to avoid "fast read"s
from the SPI flash parts.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_ADESTO || drivers/spi || bool ||  ||
Select this option if your chipset driver needs to store certain
data in the SPI flash and your SPI flash is made by Adesto Technologies.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_AMIC || drivers/spi || bool ||  ||
Select this option if your chipset driver needs to store certain
data in the SPI flash and your SPI flash is made by AMIC.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_ATMEL || drivers/spi || bool ||  ||
Select this option if your chipset driver needs to store certain
data in the SPI flash and your SPI flash is made by Atmel.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_EON || drivers/spi || bool ||  ||
Select this option if your chipset driver needs to store certain
data in the SPI flash and your SPI flash is made by EON.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_GIGADEVICE || drivers/spi || bool ||  ||
Select this option if your chipset driver needs to store certain
data in the SPI flash and your SPI flash is made by Gigadevice.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_MACRONIX || drivers/spi || bool ||  ||
Select this option if your chipset driver needs to store certain
data in the SPI flash and your SPI flash is made by Macronix.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_SPANSION || drivers/spi || bool ||  ||
Select this option if your chipset driver needs to store certain
data in the SPI flash and your SPI flash is made by Spansion.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_SST || drivers/spi || bool ||  ||
Select this option if your chipset driver needs to store certain
data in the SPI flash and your SPI flash is made by SST.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_STMICRO || drivers/spi || bool ||  ||
Select this option if your chipset driver needs to store certain
data in the SPI flash and your SPI flash is made by ST MICRO.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_WINBOND || drivers/spi || bool ||  ||
Select this option if your chipset driver needs to store certain
data in the SPI flash and your SPI flash is made by Winbond.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_FAST_READ_DUAL_OUTPUT_3B || drivers/spi || bool ||  ||
Select this option if your SPI flash supports the fast read dual-
output command (opcode 0x3b) where the opcode and address are sent
to the chip on MOSI and data is received on both MOSI and MISO.
 
||
|- bgcolor="#eeeeee"
| SPI_FLASH_HAS_VOLATILE_GROUP || drivers/spi || bool ||  ||
Allows chipset to group write/erase operations under a single volatile
group.
 
||
|- bgcolor="#eeeeee"
| DIGITIZER_AUTODETECT || drivers/lenovo || bool || Autodetect ||
The presence of digitizer is inferred from model number stored in
AT24RF chip.
 
||
|- bgcolor="#eeeeee"
| DIGITIZER_PRESENT || drivers/lenovo || bool || Present ||
The digitizer is assumed to be present.
 
||
|- bgcolor="#eeeeee"
| DIGITIZER_ABSENT || drivers/lenovo || bool || Absent ||
The digitizer is assumed to be absent.
 
||
|- bgcolor="#eeeeee"
| UART_OVERRIDE_INPUT_CLOCK_DIVIDER || drivers/uart || boolean ||  ||
Set to "y" when the platform overrides the uart_input_clock_divider
routine.
 
||
|- bgcolor="#eeeeee"
| UART_OVERRIDE_REFCLK || drivers/uart || boolean ||  ||
Set to "y" when the platform overrides the uart_platform_refclk
routine.
 
||
|- bgcolor="#eeeeee"
| DRIVERS_UART_OXPCIE || drivers/uart || bool || Oxford OXPCIe952 ||
Support for Oxford OXPCIe952 serial port PCIe cards.
Currently only devices with the vendor ID 0x1415 and device ID
0xc158 or 0xc11b will work.
 
||
|- bgcolor="#eeeeee"
| UART_USE_REFCLK_AS_INPUT_CLOCK || drivers/uart || bool ||  ||
Use uart_platform_refclk to specify the input clock value.
 
||
|- bgcolor="#eeeeee"
| UART_PCI_ADDR || drivers/uart || hex || UART's PCI bus, device, function address ||
Specify zero if the UART is connected to another bus type.
For PCI based UARTs, build the value as:
* 1 << 31 - Valid bit, PCI UART in use
* Bus << 20
* Device << 15
* Function << 12
 
||
||
|- bgcolor="#eeeeee"
| GIC || drivers/gic || None ||  ||
This option enables GIC support, the ARM generic interrupt controller.
 
||
||
|- bgcolor="#eeeeee"
| REALTEK_8168_RESET || drivers/net || bool ||  ||
This forces a realtek 10ec:8168 card to reset to ensure power state
is correct at boot.
 
||
|- bgcolor="#eeeeee"
| REALTEK_8168_MACADDRESS || drivers/net || string || Realtek rt8168 mac address ||
This is a string to set the mac address on a Realtek rt8168 card.
It must be in the form  of "xx:xx:xx:xx:xx:xx", where x is a
hexadecimal number for it to be valid. Failing to do so will
result in the default macaddress being used.
 
||
|- bgcolor="#eeeeee"
| DRIVERS_PS2_KEYBOARD || drivers/pc80/pc || bool || PS/2 keyboard init ||
Enable this option to initialize PS/2 keyboards found connected
to the PS/2 port.
 
Some payloads (eg, filo) require this option.  Other payloads
(eg, GRUB 2, SeaBIOS, Linux) do not require it.
Initializing a PS/2 keyboard can take several hundred milliseconds.
 
If you know you will only use a payload which does not require
this option, then you can say N here to speed up boot time.
Otherwise say Y.
 
||
||
|- bgcolor="#eeeeee"
| VGA || drivers/pc80/vga || bool ||  ||
Include legacy VGA support code.
 
||
||
|- bgcolor="#eeeeee"
| MAINBOARD_HAS_LPC_TPM || drivers/pc80/tpm || bool ||  ||
Board has TPM support
 
||
|- bgcolor="#eeeeee"
| LPC_TPM || drivers/pc80/tpm || bool || Enable TPM support ||
Enable this option to enable LPC TPM support in coreboot.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| TPM_TIS_BASE_ADDRESS || drivers/pc80/tpm || hex ||  ||
This can be used to adjust the TPM memory base address.
The default is specified by the TCG PC Client Specific TPM
Interface Specification 1.2 and should not be changed unless
the TPM being used does not conform to TPM TIS 1.2.
 
||
|- bgcolor="#eeeeee"
| TPM_PIRQ || drivers/pc80/tpm || hex ||  ||
This can be used to specify a PIRQ to use instead of SERIRQ,
which is needed for SPI TPM interrupt support on x86.
 
||
|- bgcolor="#eeeeee"
| TPM_INIT_FAILURE_IS_FATAL || drivers/pc80/tpm || bool ||  ||
What to do if TPM init failed. If true, force a hard reset,
otherwise just log error message to console.
 
||
|- bgcolor="#eeeeee"
| SKIP_TPM_STARTUP_ON_NORMAL_BOOT || drivers/pc80/tpm || bool ||  ||
Skip TPM init on normal boot. Useful if payload does TPM init.
 
||
|- bgcolor="#eeeeee"
| TPM_DEACTIVATE || drivers/pc80/tpm || bool || Deactivate TPM ||
Deactivate TPM by issuing deactivate command.
 
||
||
|- bgcolor="#eeeeee"
| PLATFORM_USES_FSP1_1 || drivers/intel/fsp1_1 || bool ||  ||
Does the code require the Intel Firmware Support Package?
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || Intel FSP 1.1 ||
|- bgcolor="#eeeeee"
| HAVE_FSP_BIN || drivers/intel/fsp1_1 || bool || Should the Intel FSP binary be added to the flash image ||
Select this option to add an Intel FSP binary to
the resulting coreboot image.
 
Note: Without this binary, coreboot builds relying on the FSP
will not boot
 
||
|- bgcolor="#eeeeee"
| CPU_MICROCODE_CBFS_LEN || drivers/intel/fsp1_1 || hex || Microcode update region length in bytes ||
The length in bytes of the microcode update region.
 
||
|- bgcolor="#eeeeee"
| CPU_MICROCODE_CBFS_LOC || drivers/intel/fsp1_1 || hex || Microcode update base address in CBFS ||
The location (base address) in CBFS that contains the microcode update
binary.
 
||
|- bgcolor="#eeeeee"
| FSP_FILE || drivers/intel/fsp1_1 || string || Intel FSP binary path and filename ||
The path and filename of the Intel FSP binary for this platform.
 
||
|- bgcolor="#eeeeee"
| FSP_LOC || drivers/intel/fsp1_1 || hex || Intel FSP Binary location in CBFS ||
The location in CBFS that the FSP is located. This must match the
value that is set in the FSP binary.  If the FSP needs to be moved,
rebase the FSP with Intel's BCT (tool).
 
||
|- bgcolor="#eeeeee"
| DISPLAY_UPD_DATA || drivers/intel/fsp1_1 || bool || Display UPD data ||
Display the user specified product data prior to memory
initialization.
 
||
|- bgcolor="#eeeeee"
| FSP_USES_UPD || drivers/intel/fsp1_1 || bool ||  ||
If this FSP uses UPD/VPD data regions, select this in the chipset
Kconfig.
 
||
|- bgcolor="#eeeeee"
| USE_GENERIC_FSP_CAR_INC || drivers/intel/fsp1_1 || bool ||  ||
The chipset can select this to use a generic cache_as_ram.inc file
that should be good for all FSP based platforms.
 
||
|- bgcolor="#eeeeee"
| INTEL_DDI || drivers/intel/gma || bool ||  ||
helper functions for intel DDI operations
 
||
|- bgcolor="#eeeeee"
| INTEL_GMA_SSC_ALTERNATE_REF || drivers/intel/gma || bool ||  ||
Set when the SSC reference clock for LVDS runs at a different fre-
quency than the general display reference clock.
 
To be set by northbridge or mainboard Kconfig.  For most platforms,
there is no choice, i.e. for i945 and gm45 the SSC reference always
differs from the display reference clock (i945: 66Mhz SSC vs. 48MHz
DREF; gm45: 100MHz SSC vs. 96Mhz DREF), for Nehalem and newer, it's
the same frequency for SSC/non-SSC (120MHz).  The only, currently
supported platform with a choice seems to be Pineview, where the
alternative is 100MHz vs. the default 96MHz.
 
||
|- bgcolor="#eeeeee"
| GFX_GMA_ANALOG_I2C_PORT || drivers/intel/gma || string ||  ||
Boards with a DVI-I connector share the I2C pins for both analog and
digital displays. In that case, the EDID for a VGA display has to be
read over the I2C interface of the coupled digital port.
 
||
|- bgcolor="#eeeeee"
| DRIVERS_INTEL_MIPI_CAMERA || drivers/intel/mipi_camera || bool ||  ||
MIPI CSI I2C camera SSDT generator. Generates SSDB and PWDB
structures which are used by the Intel kernel drivers.
 
||
||
|- bgcolor="#eeeeee"
| || || (comment) || || Intel FSP ||
|- bgcolor="#eeeeee"
| HAVE_FSP_BIN || drivers/intel/fsp1_0 || bool || Use Intel Firmware Support Package ||
Select this option to add an Intel FSP binary to
the resulting coreboot image.
 
Note: Without this binary, coreboot builds relying on the FSP
will not boot
 
||
|- bgcolor="#eeeeee"
| FSP_FILE || drivers/intel/fsp1_0 || string || Intel FSP binary path and filename ||
The path and filename of the Intel FSP binary for this platform.
 
||
|- bgcolor="#eeeeee"
| FSP_LOC || drivers/intel/fsp1_0 || hex || Intel FSP Binary location in CBFS ||
The location in CBFS that the FSP is located. This must match the
value that is set in the FSP binary.  If the FSP needs to be moved,
rebase the FSP with Intel's BCT (tool).
 
||
|- bgcolor="#eeeeee"
| ENABLE_FSP_FAST_BOOT || drivers/intel/fsp1_0 || bool || Enable Fast Boot ||
Enabling this feature will force the MRC data to be cached in NV
storage to be used for speeding up boot time on future reboots
and/or power cycles.
 
||
|- bgcolor="#eeeeee"
| ENABLE_MRC_CACHE || drivers/intel/fsp1_0 || bool ||  ||
Enabling this feature will cause MRC data to be cached in NV storage.
This can either be used for fast boot, or just because the FSP wants
it to be saved.
 
||
|- bgcolor="#eeeeee"
| MRC_CACHE_FMAP || drivers/intel/fsp1_0 || bool || Use MRC Cache in FMAP ||
Use the region "RW_MRC_CACHE" in FMAP instead of "mrc.cache" in CBFS.
You must define a region in your FMAP named "RW_MRC_CACHE".
 
||
|- bgcolor="#eeeeee"
| MRC_CACHE_SIZE || drivers/intel/fsp1_0 || hex || Fast Boot Data Cache Size ||
This is the amount of space in NV storage that is reserved for the
fast boot data cache storage.
 
WARNING: Because this area will be erased and re-written, the size
should be a full sector of the flash ROM chip and nothing else should
be included in CBFS in any sector that the fast boot cache data is in.
 
||
|- bgcolor="#eeeeee"
| VIRTUAL_ROM_SIZE || drivers/intel/fsp1_0 || hex || Virtual ROM Size ||
This is used to calculate the offset of the MRC data cache in NV
Storage for fast boot.  If in doubt, leave this set to the default
which sets the virtual size equal to the ROM size.
 
Example: Cougar Canyon 2 has two 8 MB SPI ROMs.  When the SPI ROMs are
loaded with a 4 MB coreboot image, the virtual ROM size is 8 MB.  When
the SPI ROMs are loaded with an 8 MB coreboot image, the virtual ROM
size is 16 MB.
 
||
|- bgcolor="#eeeeee"
| CACHE_ROM_SIZE_OVERRIDE || drivers/intel/fsp1_0 || hex || Cache ROM Size ||
This is the size of the cachable area that is passed into the FSP in
the early initialization.  Typically this should be the size of the CBFS
area, but the size must be a power of 2 whereas the CBFS size does not
have this limitation.
 
||
|- bgcolor="#eeeeee"
| USE_GENERIC_FSP_CAR_INC || drivers/intel/fsp1_0 || bool ||  ||
The chipset can select this to use a generic cache_as_ram.inc file
that should be good for all FSP based platforms.
 
||
|- bgcolor="#eeeeee"
| FSP_USES_UPD || drivers/intel/fsp1_0 || bool ||  ||
If this FSP uses UPD/VPD data regions, select this in the chipset Kconfig.
||
|- bgcolor="#eeeeee"
| DRIVERS_INTEL_WIFI || drivers/intel/wifi || bool || Support Intel PCI-e WiFi adapters ||
When enabled, add identifiers in ACPI and SMBIOS tables to
make OS drivers work with certain Intel PCI-e WiFi chipsets.
 
||
|- bgcolor="#eeeeee"
| USE_SAR || drivers/intel/wifi || bool ||  ||
Enable it when wifi driver uses SAR configuration feature.
VPD entry "wifi_sar" is required to support it.
 
||
|- bgcolor="#eeeeee"
| DSAR_SET_NUM || drivers/intel/wifi || hex || Number of SAR sets when D-SAR is enabled ||
There can be up to 3 optional SAR table sets.
 
||
||
|- bgcolor="#eeeeee"
| PLATFORM_USES_FSP2_0 || drivers/intel/fsp2_0 || bool ||  ||
Include FSP 2.0 wrappers and functionality
 
||
|- bgcolor="#eeeeee"
| ADD_FSP_BINARIES || drivers/intel/fsp2_0 || bool || Add Intel FSP 2.0 binaries to CBFS ||
Add the FSP-M and FSP-S binaries to CBFS. Currently coreboot does not
use the FSP-T binary and it is not added.
 
||
|- bgcolor="#eeeeee"
| DISPLAY_FSP_CALLS_AND_STATUS || drivers/intel/fsp2_0 || bool || Display the FSP calls and status ||
Display the FSP call entry point and parameters prior to calling FSP
and display the status upon return from FSP.
 
||
|- bgcolor="#eeeeee"
| DISPLAY_FSP_HEADER || drivers/intel/fsp2_0 || bool || Display the FSP header ||
Display the FSP header information when the FSP file is found.
 
||
|- bgcolor="#eeeeee"
| DISPLAY_HOBS || drivers/intel/fsp2_0 || bool || Display the hand-off-blocks ||
Display the FSP HOBs which are provided for coreboot.
 
||
|- bgcolor="#eeeeee"
| DISPLAY_UPD_DATA || drivers/intel/fsp2_0 || bool || Display UPD data ||
Display the user specified product data prior to memory
initialization.
 
||
|- bgcolor="#eeeeee"
| FSP_T_FILE || drivers/intel/fsp2_0 || string || Intel FSP-T (temp ram init) binary path and filename ||
The path and filename of the Intel FSP-M binary for this platform.
 
||
|- bgcolor="#eeeeee"
| FSP_M_FILE || drivers/intel/fsp2_0 || string || Intel FSP-M (memory init) binary path and filename ||
The path and filename of the Intel FSP-M binary for this platform.
 
||
|- bgcolor="#eeeeee"
| FSP_S_FILE || drivers/intel/fsp2_0 || string || Intel FSP-S (silicon init) binary path and filename ||
The path and filename of the Intel FSP-S binary for this platform.
 
||
|- bgcolor="#eeeeee"
| FSP_CAR || drivers/intel/fsp2_0 || bool || Use FSP TempRamInit & TempRamExit APIs ||
Use FSP APIs to initialize & Tear Down the Cache-As-Ram
 
||
|- bgcolor="#eeeeee"
| FSP_M_XIP || drivers/intel/fsp2_0 || bool || Is FSP-M XIP ||
Select this value when FSP-M is execute-in-place.
 
||
|- bgcolor="#eeeeee"
| VERIFY_HOBS || drivers/intel/fsp2_0 || bool || Verify the FSP hand-off-blocks ||
Verify that the HOBs required by coreboot are returned by FSP and
that the resource HOBs are in the correct order and position.
 
||
|- bgcolor="#eeeeee"
| FSP_PLATFORM_MEMORY_SETTINGS_VERSIONS || drivers/intel/fsp2_0 || bool ||  ||
This is selected by SoC or mainboard to supply their own
concept of a version for the memory settings respectively.
This allows deployed systems to bump their version number
with the same FSP which will trigger a retrain of the memory.
 
||
|- bgcolor="#eeeeee"
| DRIVERS_SIL_3114 || drivers/sil/3114 || bool || Silicon Image SIL3114 ||
It sets PCI class to IDE compatible native mode, allowing
SeaBIOS, FILO etc... to boot from it.
 
||
||
|- bgcolor="#eeeeee"
| DRIVER_TI_TPS65090 || drivers/ti/tps65090 || bool ||  ||
TI TPS65090
 
||
||
|- bgcolor="#eeeeee"
| DRIVERS_EMULATION_QEMU_BOCHS || drivers/emulation/qemu || bool || bochs dispi interface vga driver ||
VGA driver for qemu emulated vga cards supporting
the bochs dispi interface.  This includes
standard vga, vmware svga and qxl.  The default
vga (cirrus) is *not* supported, so you have to
pick another one explicitly via 'qemu -vga $card'.
 
||
|- bgcolor="#eeeeee"
| DRIVER_XPOWERS_AXP209 || drivers/xpowers/axp209 || bool ||  ||
X-Powers AXP902 Power Management Unit
 
||
|- bgcolor="#eeeeee"
| DRIVER_XPOWERS_AXP209_BOOTBLOCK || drivers/xpowers/axp209 || bool ||  ||
Make AXP209 functionality available in he bootblock.
 
||
|- bgcolor="#eeeeee"
| DRIVER_PARADE_PS8640 || drivers/parade/ps8640 || bool ||  ||
Parade PS8640 MIPI DSI to eDP Converter
 
||
||
|- bgcolor="#eeeeee"
| DRIVER_PARADE_PS8625 || drivers/parade/ps8625 || bool ||  ||
Parade ps8625 display port to lvds bridge
 
||
||
|- bgcolor="#eeeeee"
| DRIVER_MAXIM_MAX77686 || drivers/maxim/max77686 || bool ||  ||
Maxim MAX77686 power regulator
 
||
||
|- bgcolor="#eeeeee"
| DRIVERS_I2C_RX6110SA || drivers/i2c/rx6110sa || bool ||  ||
Enable support for external RTC chip RX6110 SA.
 
||
||
|- bgcolor="#eeeeee"
| DRIVERS_I2C_RTD2132 || drivers/i2c/rtd2132 || bool ||  ||
Enable support for Realtek RTD2132 DisplayPort to LVDS bridge chip.
 
||
||
|- bgcolor="#eeeeee"
| STORAGE_ERASE || commonlib/storage || bool || Support SD/MMC erase operations ||
Select to enable SD/MMC erase oprations
 
||
|- bgcolor="#eeeeee"
| STORAGE_WRITE || commonlib/storage || bool || Support SD/MMC write operations ||
Select to enable SD/MMC write oprations
 
||
|- bgcolor="#eeeeee"
| SD_MMC_DEBUG || commonlib/storage || bool || Debug SD/MMC card/devices operations ||
Display overview of SD/MMC card/device operations
 
||
|- bgcolor="#eeeeee"
| SD_MMC_TRACE || commonlib/storage || bool || Trace SD/MMC card/device operations ||
Display details of SD/MMC card/device operations
 
||
|- bgcolor="#eeeeee"
| SDHC_DEBUG || commonlib/storage || bool || Debug SD/MMC controller settings ||
Display clock speed and bus width settings
 
||
|- bgcolor="#eeeeee"
| SDHC_TRACE || commonlib/storage || bool || Trace SD/MMC controller operations ||
Display the operations performed by the SD/MMC controller
 
||
|- bgcolor="#eeeeee"
| SDHCI_ADMA_IN_BOOTBLOCK || commonlib/storage || bool ||  ||
Determine if bootblock is able to use ADMA2 or ADMA64
 
||
|- bgcolor="#eeeeee"
| SDHCI_ADMA_IN_ROMSTAGE || commonlib/storage || bool ||  ||
Determine if romstage is able to use ADMA2 or ADMA64
 
||
|- bgcolor="#eeeeee"
| SDHCI_ADMA_IN_VERSTAGE || commonlib/storage || bool ||  ||
Determine if verstage is able to use ADMA2 or ADMA64
 
||
 
|- bgcolor="#eeeeee"
| ACPI_SATA_GENERATOR || acpi || bool ||  ||
Use ACPI SATA port generator.
 
||
|- bgcolor="#eeeeee"
| ACPI_INTEL_HARDWARE_SLEEP_VALUES || acpi || bool ||  ||
Provide common definitions for Intel hardware PM1_CNT regiser sleep
values.
 
||
 
||
|- bgcolor="#eeeeee"
| BOOT_DEVICE_MEMORY_MAPPED || toplevel || bool ||  ||
Inform system if SPI is memory-mapped or not.
 
||
|- bgcolor="#eeeeee"
| BOOT_DEVICE_SUPPORTS_WRITES || toplevel || bool ||  ||
Indicate that the platform has writable boot device
support.
 
||
|- bgcolor="#eeeeee"
| TPM || toplevel || bool ||  ||
Enable this option to enable TPM support in coreboot.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| TPM2 || toplevel || bool ||  ||
Enable this option to enable TPM2 support in coreboot.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| POWER_OFF_ON_CR50_UPDATE || toplevel || bool ||  ||
Power off machine while waiting for CR50 update to take effect.
 
||
|- bgcolor="#6699dd"
! align="left" | Menu: Console || || || ||
|- bgcolor="#eeeeee"
| BOOTBLOCK_CONSOLE || console || bool || Enable early (bootblock) console output. ||
Use console during the bootblock if supported
 
||
|- bgcolor="#eeeeee"
| POSTCAR_CONSOLE || console || bool || Enable console output during postcar. ||
Use console during the postcar if supported
 
||
|- bgcolor="#eeeeee"
| SQUELCH_EARLY_SMP || console || bool || Squelch AP CPUs from early console. ||
When selected only the BSP CPU will output to early console.
 
Console drivers have unpredictable behaviour if multiple threads
attempt to share the same resources without a spinlock.
 
If unsure, say Y.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL || console || bool || Serial port console output ||
Send coreboot debug output to a serial port.
 
The type of serial port driver selected based on your configuration is
shown on the following menu line. Supporting multiple different types
of UARTs in one build is not supported.
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || I/O mapped, 8250-compatible ||
|- bgcolor="#eeeeee"
| || || (comment) || || memory mapped, 8250-compatible ||
|- bgcolor="#eeeeee"
| || || (comment) || || device-specific UART ||
|- bgcolor="#eeeeee"
| UART_FOR_CONSOLE || console || int || Index for UART port to use for console ||
Select an I/O port to use for serial console:
0 = 0x3f8, 1 = 0x2f8, 2 = 0x3e8, 3 = 0x2e8
 
||
|- bgcolor="#eeeeee"
| TTYS0_BASE || console || hex ||  ||
Map the COM port number to the respective I/O port.
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || Serial port base address = 0x3f8 ||
|- bgcolor="#eeeeee"
| || || (comment) || || Serial port base address = 0x2f8 ||
|- bgcolor="#eeeeee"
| || || (comment) || || Serial port base address = 0x3e8 ||
|- bgcolor="#eeeeee"
| || || (comment) || || Serial port base address = 0x2e8 ||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_921600 || console || bool || 921600 ||
Set serial port Baud rate to 921600.
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_460800 || console || bool || 460800 ||
Set serial port Baud rate to 460800.
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_230400 || console || bool || 230400 ||
Set serial port Baud rate to 230400.
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_115200 || console || bool || 115200 ||
Set serial port Baud rate to 115200.
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_57600 || console || bool || 57600 ||
Set serial port Baud rate to 57600.
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_38400 || console || bool || 38400 ||
Set serial port Baud rate to 38400.
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_19200 || console || bool || 19200 ||
Set serial port Baud rate to 19200.
||
|- bgcolor="#eeeeee"
| CONSOLE_SERIAL_9600 || console || bool || 9600 ||
Set serial port Baud rate to 9600.
 
||
|- bgcolor="#eeeeee"
| TTYS0_BAUD || console || int ||  ||
Map the Baud rates to an integer.
 
||
|- bgcolor="#eeeeee"
| SPKMODEM || console || bool || spkmodem (console on speaker) console output ||
Send coreboot debug output through speaker
 
||
|- bgcolor="#eeeeee"
| CONSOLE_USB || console || bool || USB dongle console output ||
Send coreboot debug output to USB.
 
Configuration for USB hardware is under menu Generic Drivers.
 
||
|- bgcolor="#eeeeee"
| ONBOARD_VGA_IS_PRIMARY || console || bool || Use onboard VGA as primary video device ||
If not selected, the last adapter found will be used.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_NE2K || console || bool || Network console over NE2000 compatible Ethernet adapter ||
Send coreboot debug output to a Ethernet console, it works
same way as Linux netconsole, packets are received to UDP
port 6666 on IP/MAC specified with options bellow.
Use following netcat command: nc -u -l -p 6666
 
||
|- bgcolor="#eeeeee"
| CONSOLE_NE2K_DST_MAC || console || string || Destination MAC address of remote system ||
Type in either MAC address of logging system or MAC address
of the router.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_NE2K_DST_IP || console || string || Destination IP of logging system ||
This is IP address of the system running for example
netcat command to dump the packets.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_NE2K_SRC_IP || console || string || IP address of coreboot system ||
This is the IP of the coreboot system
 
||
|- bgcolor="#eeeeee"
| CONSOLE_NE2K_IO_PORT || console || hex || NE2000 adapter fixed IO port address ||
This is the IO port address for the IO port
on the card, please select some non-conflicting region,
32 bytes of IO spaces will be used (and align on 32 bytes
boundary, qemu needs broader align)
 
||
|- bgcolor="#eeeeee"
| CONSOLE_CBMEM || console || bool || Send console output to a CBMEM buffer ||
Enable this to save the console output in a CBMEM buffer. This would
allow to see coreboot console output from Linux space.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_CBMEM_BUFFER_SIZE || console || hex || Room allocated for console output in CBMEM ||
Space allocated for console output storage in CBMEM. The default
value (128K or 0x20000 bytes) is large enough to accommodate
even the BIOS_SPEW level.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_CBMEM_DUMP_TO_UART || console || bool || Dump CBMEM console on resets ||
Enable this to have CBMEM console buffer contents dumped on the
serial output in case serial console is disabled and the device
resets itself while trying to boot the payload.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_SPI_FLASH || console || bool || SPI Flash console output ||
Send coreboot debug output to the SPI Flash in the FMAP CONSOLE area
 
This option can cause premature wear on the SPI flash and should not
be used as a normal means of debugging. It is only to be enabled and
used when porting a new motherboard which has no other console
available (no UART, no POST, no cbmem access(non bootable)). Since
a non bootable machine will require the use of an external SPI Flash
programmer, the developer can grab the console log at the same time.
 
The flash console will not be erased on reboot, so once it is full,
the flashconsole driver will stop writing to it. This is to avoid
wear on the flash, and to avoid erasing sectors (which may freeze
the SPI controller on skylake).
 
The 'CONSOLE' area can be extracted from the FMAP with :
cbfstool rom.bin read -r CONSOLE -f console.log
 
||
|- bgcolor="#eeeeee"
| CONSOLE_SPI_FLASH_BUFFER_SIZE || console || hex || Room allocated for console output in FMAP ||
Space allocated for console output storage in FMAP. The default
value (128K or 0x20000 bytes) is large enough to accommodate
even the BIOS_SPEW level.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_QEMU_DEBUGCON || console || bool || QEMU debug console output ||
Send coreboot debug output to QEMU's isa-debugcon device:
 
qemu-system-x86_64 \
-chardev file,id=debugcon,path=/dir/file.log \
-device isa-debugcon,iobase=0x402,chardev=debugcon
 
||
|- bgcolor="#eeeeee"
| SPI_CONSOLE || console || bool || SPI debug console output ||
Enable support for the debug console on the Dediprog EM100Pro.
This is currently working only in ramstage due to how the spi
drivers are written.
 
||
|- bgcolor="#eeeeee"
| DEFAULT_CONSOLE_LOGLEVEL_8 || console || bool || 8: SPEW ||
Way too many details.
||
|- bgcolor="#eeeeee"
| DEFAULT_CONSOLE_LOGLEVEL_7 || console || bool || 7: DEBUG ||
Debug-level messages.
||
|- bgcolor="#eeeeee"
| DEFAULT_CONSOLE_LOGLEVEL_6 || console || bool || 6: INFO ||
Informational messages.
||
|- bgcolor="#eeeeee"
| DEFAULT_CONSOLE_LOGLEVEL_5 || console || bool || 5: NOTICE ||
Normal but significant conditions.
||
|- bgcolor="#eeeeee"
| DEFAULT_CONSOLE_LOGLEVEL_4 || console || bool || 4: WARNING ||
Warning conditions.
||
|- bgcolor="#eeeeee"
| DEFAULT_CONSOLE_LOGLEVEL_3 || console || bool || 3: ERR ||
Error conditions.
||
|- bgcolor="#eeeeee"
| DEFAULT_CONSOLE_LOGLEVEL_2 || console || bool || 2: CRIT ||
Critical conditions.
||
|- bgcolor="#eeeeee"
| DEFAULT_CONSOLE_LOGLEVEL_1 || console || bool || 1: ALERT ||
Action must be taken immediately.
||
|- bgcolor="#eeeeee"
| DEFAULT_CONSOLE_LOGLEVEL_0 || console || bool || 0: EMERG ||
System is unusable.
 
||
|- bgcolor="#eeeeee"
| DEFAULT_CONSOLE_LOGLEVEL || console || int ||  ||
Map the log level config names to an integer.
 
||
|- bgcolor="#eeeeee"
| CMOS_POST || console || bool || Store post codes in CMOS for debugging ||
If enabled, coreboot will store post codes in CMOS and switch between
two offsets on each boot so the last post code in the previous boot
can be retrieved.  This uses 3 bytes of CMOS.
 
||
|- bgcolor="#eeeeee"
| CMOS_POST_OFFSET || console || hex || Offset into CMOS to store POST codes ||
If CMOS_POST is enabled then an offset into CMOS must be provided.
If CONFIG_HAVE_OPTION_TABLE is enabled then it will use the value
defined in the mainboard option table.
 
||
|- bgcolor="#eeeeee"
| CMOS_POST_EXTRA || console || bool || Store extra logging info into CMOS ||
This will enable extra logging of work that happens between post
codes into CMOS for debug.  This uses an additional 8 bytes of CMOS.
 
||
|- bgcolor="#eeeeee"
| CONSOLE_POST || console || bool || Show POST codes on the debug console ||
If enabled, coreboot will additionally print POST codes (which are
usually displayed using a so-called "POST card" ISA/PCI/PCI-E
device) on the debug console.
 
||
|- bgcolor="#eeeeee"
| POST_IO || console || bool || Send POST codes to an IO port ||
If enabled, POST codes will be written to an IO port.
 
||
|- bgcolor="#eeeeee"
| POST_IO_PORT || console || hex || IO port for POST codes ||
POST codes on x86 are typically written to the LPC bus on port
0x80. However, it may be desirable to change the port number
depending on the presence of coprocessors/microcontrollers or if the
platform does not support IO in the conventional x86 manner.
 
||
|- bgcolor="#eeeeee"
| NO_EARLY_BOOTBLOCK_POSTCODES || console || hex ||  ||
Some chipsets require that the routing for the port 80h POST
code be configured before any POST codes are sent out.
This can be done in the boot block, but there are a couple of
POST codes that go out before the chipset's bootblock initialization
can happen.  This option suppresses those POST codes.
 
||
 
|- bgcolor="#eeeeee"
| ACPI_HUGE_LOWMEM_BACKUP || toplevel || bool ||  ||
On S3 resume path, backup low memory from RAMBASE..RAMTOP in CBMEM.
 
||
|- bgcolor="#eeeeee"
| RESUME_PATH_SAME_AS_BOOT || toplevel || bool ||  ||
This option indicates that when a system resumes it takes the
same path as a regular boot. e.g. an x86 system runs from the
reset vector at 0xfffffff0 on both resume and warm/cold boot.
 
||
|- bgcolor="#eeeeee"
| HAVE_HARD_RESET || toplevel || bool ||  ||
This variable specifies whether a given board has a hard_reset
function, no matter if it's provided by board code or chipset code.
 
||
|- bgcolor="#eeeeee"
| HAVE_ROMSTAGE_NVRAM_CBFS_SPINLOCK || toplevel || bool ||  ||
This should be enabled on certain plaforms, such as the AMD
SR565x, that cannot handle concurrent CBFS accesses from
multiple APs during early startup.
 
||
|- bgcolor="#eeeeee"
| HAVE_MONOTONIC_TIMER || toplevel || bool ||  ||
The board/chipset provides a monotonic timer.
 
||
|- bgcolor="#eeeeee"
| GENERIC_UDELAY || toplevel || bool ||  ||
The board/chipset uses a generic udelay function utilizing the
monotonic timer.
 
||
|- bgcolor="#eeeeee"
| TIMER_QUEUE || toplevel || bool ||  ||
Provide a timer queue for performing time-based callbacks.
 
||
|- bgcolor="#eeeeee"
| COOP_MULTITASKING || toplevel || bool ||  ||
Cooperative multitasking allows callbacks to be multiplexed on the
main thread of ramstage. With this enabled it allows for multiple
execution paths to take place when they have udelay() calls within
their code.
 
||
|- bgcolor="#eeeeee"
| NUM_THREADS || toplevel || int ||  ||
How many execution threads to cooperatively multitask with.
 
||
|- bgcolor="#eeeeee"
| HAVE_OPTION_TABLE || toplevel || bool ||  ||
This variable specifies whether a given board has a cmos.layout
file containing NVRAM/CMOS bit definitions.
It defaults to 'n' but can be selected in mainboard/*/Kconfig.
 
||
|- bgcolor="#eeeeee"
| GFXUMA || toplevel || bool ||  ||
Enable Unified Memory Architecture for graphics.
 
||
|- bgcolor="#eeeeee"
| HAVE_ACPI_TABLES || toplevel || bool ||  ||
This variable specifies whether a given board has ACPI table support.
It is usually set in mainboard/*/Kconfig.
 
||
|- bgcolor="#eeeeee"
| HAVE_MP_TABLE || toplevel || bool ||  ||
This variable specifies whether a given board has MP table support.
It is usually set in mainboard/*/Kconfig.
Whether or not the MP table is actually generated by coreboot
is configurable by the user via GENERATE_MP_TABLE.
 
||
|- bgcolor="#eeeeee"
| HAVE_PIRQ_TABLE || toplevel || bool ||  ||
This variable specifies whether a given board has PIRQ table support.
It is usually set in mainboard/*/Kconfig.
Whether or not the PIRQ table is actually generated by coreboot
is configurable by the user via GENERATE_PIRQ_TABLE.
 
||
|- bgcolor="#eeeeee"
| MAX_PIRQ_LINKS || toplevel || int ||  ||
This variable specifies the number of PIRQ interrupt links which are
routable. On most chipsets, this is 4, INTA through INTD. Some
chipsets offer more than four links, commonly up to INTH. They may
also have a separate link for ATA or IOAPIC interrupts. When the PIRQ
table specifies links greater than 4, pirq_route_irqs will not
function properly, unless this variable is correctly set.
 
||
|- bgcolor="#eeeeee"
| ACPI_NHLT || toplevel || bool ||  ||
Build support for NHLT (non HD Audio) ACPI table generation.
 
||
|- bgcolor="#6699dd"
! align="left" | Menu: System tables || || || ||
|- bgcolor="#eeeeee"
| GENERATE_MP_TABLE || toplevel || bool || Generate an MP table ||
Generate an MP table (conforming to the Intel MultiProcessor
specification 1.4) for this board.
 
If unsure, say Y.
 
||
|- bgcolor="#eeeeee"
| GENERATE_PIRQ_TABLE || toplevel || bool || Generate a PIRQ table ||
Generate a PIRQ table for this board.
 
If unsure, say Y.
 
||
|- bgcolor="#eeeeee"
| GENERATE_SMBIOS_TABLES || toplevel || bool || Generate SMBIOS tables ||
Generate SMBIOS tables for this board.
 
If unsure, say Y.
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_SERIAL_NUMBER || toplevel || string || SMBIOS Serial Number ||
The Serial Number to store in SMBIOS structures.
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_VERSION || toplevel || string || SMBIOS Version Number ||
The Version Number to store in SMBIOS structures.
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_SMBIOS_MANUFACTURER || toplevel || string || SMBIOS Manufacturer ||
Override the default Manufacturer stored in SMBIOS structures.
 
||
|- bgcolor="#eeeeee"
| MAINBOARD_SMBIOS_PRODUCT_NAME || toplevel || string || SMBIOS Product name ||
Override the default Product name stored in SMBIOS structures.
 
||
 
|- bgcolor="#6699dd"
! align="left" | Menu: Payload || || || ||
|- bgcolor="#eeeeee"
| PAYLOAD_NONE || payloads || bool || None ||
Select this option if you want to create an "empty" coreboot
ROM image for a certain mainboard, i.e. a coreboot ROM image
which does not yet contain a payload.
 
For such an image to be useful, you have to use 'cbfstool'
to add a payload to the ROM image later.
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_ELF || payloads || bool || An ELF executable payload ||
Select this option if you have a payload image (an ELF file)
which coreboot should run as soon as the basic hardware
initialization is completed.
 
You will be able to specify the location and file name of the
payload image later.
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_BAYOU || payloads || bool || Bayou ||
Select this option if you want to set bayou as your primary
payload.
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_UBOOT || payloads/external/U-Boot.name || bool || U-Boot (Experimental) ||
Select this option if you want to build a coreboot image
with a U-Boot payload.
 
See https://coreboot.org/Payloads and U-Boot's documentation
at http://git.denx.de/?p=u-boot.git;a=blob;f=doc/README.x86
for more information.
 
||
||
|- bgcolor="#eeeeee"
| PAYLOAD_SEABIOS || payloads/external/SeaBIOS.name || bool || SeaBIOS ||
Select this option if you want to build a coreboot image
with a SeaBIOS payload. If you don't know what this is
about, just leave it enabled.
 
See https://coreboot.org/Payloads for more information.
 
||
||
|- bgcolor="#eeeeee"
| PAYLOAD_FILO || payloads/external/FILO.name || bool || FILO ||
Select this option if you want to build a coreboot image
with a FILO payload. If you don't know what this is
about, just leave it enabled.
 
See https://coreboot.org/Payloads for more information.
 
||
||
|- bgcolor="#eeeeee"
| PAYLOAD_LINUX || payloads/external/linux.name || bool || A Linux payload ||
Select this option if you have a Linux bzImage which coreboot
should run as soon as the basic hardware initialization
is completed.
 
You will be able to specify the location and file name of the
payload image later.
 
||
||
|- bgcolor="#eeeeee"
| PAYLOAD_TIANOCORE || payloads/external/tianocore.name || bool || Tianocore coreboot payload package ||
Select this option if you want to build a coreboot image
with a Tianocore payload. If you don't know what this is
about, just leave it enabled.
 
See https://coreboot.org/Payloads for more information.
 
||
||
|- bgcolor="#eeeeee"
| PAYLOAD_GRUB2 || payloads/external/GRUB2.name || bool || GRUB2 ||
Select this option if you want to build a coreboot image
with a GRUB2 payload. If you don't know what this is
about, just leave it enabled.
 
See https://coreboot.org/Payloads for more information.
 
||
||
|- bgcolor="#eeeeee"
| PAYLOAD_DEPTHCHARGE || payloads/external/depthcharge.name || bool || Depthcharge ||
Select this option if you want to build a coreboot image
with a depthcharge payload.
 
See https://coreboot.org/Payloads for more information.
 
||
 
||
|- bgcolor="#eeeeee"
| UBOOT_STABLE || payloads/external/U-Boot || bool || v2016.1 ||
Stable U-Boot version
 
||
|- bgcolor="#eeeeee"
| UBOOT_MASTER || payloads/external/U-Boot || bool || master ||
Newest U-Boot version
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_CONFIGFILE || payloads/external/U-Boot || string || U-Boot config file ||
This option allows a platform to set Kconfig options for a basic
U-Boot payload.  In general, if the option is used, the default
would be "$(top)/src/mainboard/$(MAINBOARDDIR)/config_uboot"
for a config stored in the coreboot mainboard directory, or
"$(project_dir)/configs/coreboot-x86_defconfig" to use a config
from the U-Boot config directory
 
||
|- bgcolor="#eeeeee"
| SEABIOS_STABLE || payloads/external/SeaBIOS || bool || 1.10.2 ||
Stable SeaBIOS version
||
|- bgcolor="#eeeeee"
| SEABIOS_MASTER || payloads/external/SeaBIOS || bool || master ||
Newest SeaBIOS version
||
|- bgcolor="#eeeeee"
| SEABIOS_REVISION || payloads/external/SeaBIOS || bool || git revision ||
Select this option if you have a specific commit or branch
that you want to use as the revision from which to
build SeaBIOS.
 
You will be able to specify the name of a branch or a commit id
later.
 
||
|- bgcolor="#eeeeee"
| SEABIOS_REVISION_ID || payloads/external/SeaBIOS || string || Insert a commit's SHA-1 or a branch name ||
The commit's SHA-1 or branch name of the revision to use.
 
||
|- bgcolor="#eeeeee"
| SEABIOS_PS2_TIMEOUT || payloads/external/SeaBIOS || int || PS/2 keyboard controller initialization timeout (milliseconds) ||
Some PS/2 keyboard controllers don't respond to commands immediately
after powering on. This specifies how long SeaBIOS will wait for the
keyboard controller to become ready before giving up.
 
||
|- bgcolor="#eeeeee"
| SEABIOS_THREAD_OPTIONROMS || payloads/external/SeaBIOS || bool || Hardware init during option ROM execution ||
Allow hardware init to run in parallel with optionrom execution.
 
This can reduce boot time, but can cause some timing
variations during option ROM code execution. It is not
known if all option ROMs will behave properly with this option.
 
||
|- bgcolor="#eeeeee"
| SEABIOS_VGA_COREBOOT || payloads/external/SeaBIOS || bool || Include generated option rom that implements legacy VGA BIOS compatibility ||
coreboot can initialize the GPU of some mainboards.
 
After initializing the GPU, the information about it can be passed to the payload.
Provide an option rom that implements this legacy VGA BIOS compatibility requirement.
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_CONFIGFILE || payloads/external/SeaBIOS || string || SeaBIOS config file ||
This option allows a platform to set Kconfig options for a basic
SeaBIOS payload.  In general, if the option is used, the default
would be "$(top)/src/mainboard/$(MAINBOARDDIR)/config_seabios"
 
||
|- bgcolor="#eeeeee"
| SEABIOS_BOOTORDER_FILE || payloads/external/SeaBIOS || string || SeaBIOS bootorder file ||
Add a SeaBIOS bootorder file.  From the wiki:
"The bootorder file may be used to configure the boot up order. The file
should be ASCII text and contain one line per boot method. The description
of each boot method follows an Open Firmware device path format. SeaBIOS
will attempt to boot from each item in the file - first line of the file
first."
 
See: https://www.coreboot.org/SeaBIOS#Configuring_boot_order
 
If used, a typical value would be:
$(top)/src/mainboard/$(MAINBOARDDIR)/bootorder
 
||
|- bgcolor="#eeeeee"
| SEABIOS_DEBUG_LEVEL || payloads/external/SeaBIOS || int || SeaBIOS debug level (verbosity) ||
The higher the number, the more verbose SeaBIOS will be. See the table
below for the current values corresponding to various items as of SeaBIOS
version 1.10.1. Set this value to -1 to use SeaBIOS' default.
 
Output at various SeaBIOS log levels:
level 0  - Logging disabled
level 1  - Basic output, interrupts 5, 18h, 19h, 40h, SMP, PNP, PMM
level 2  - AHCI, Floppy, Basic ps2, interrupts 11h, 12h, 14h, 17h
level 3  - bootsplash, initializations, SeaBIOS VGA BIOS interrupts
level 4  - bios tables, more optionrom
level 5  - Extra bootsplash, more XHCI
level 6  - ATA commands, extra optionrom
level 7  - extra ps2 commands, more OHCI & EHCI
level 8  - extra malloc info, more AHCI
level 9  - interrupts 15h, 16h, 1ah, APM, PCI, SMIs, PCIBIOS,
USB-HID commands, SDcard commands, Floppy commands
level 10 - interrupt 13h (Drives other than floppy)
level 20 - interrupt 10h (Display)
 
||
|- bgcolor="#eeeeee"
| || || (comment) || || Using default SeaBIOS log level ||
|- bgcolor="#eeeeee"
| || || (comment) || || SeaBIOS logging disabled ||
|- bgcolor="#6699dd"
! align="left" | Menu: PXE Options || || || ||
|- bgcolor="#eeeeee"
| PXE_ROM || payloads/external/iPXE || bool || Add an existing PXE ROM image ||
Select this option if you have a PXE ROM image that you would
like to add to your ROM.
 
||
|- bgcolor="#eeeeee"
| BUILD_IPXE || payloads/external/iPXE || bool || Build and add an iPXE ROM ||
Select this option to fetch and build a ROM from the iPXE project.
 
||
|- bgcolor="#eeeeee"
| IPXE_STABLE || payloads/external/iPXE || bool || 2017.3 ||
iPXE uses a rolling release with no stable version, for
reproducibility, use the last commit of a given month as the
'stable' version.
This is iPXE from the end of March, 2017.
 
||
|- bgcolor="#eeeeee"
| IPXE_MASTER || payloads/external/iPXE || bool || master ||
Newest iPXE version.
 
||
|- bgcolor="#eeeeee"
| PXE_ROM_FILE || payloads/external/iPXE || string || PXE ROM filename ||
The path and filename of the file to use as PXE ROM.
 
||
|- bgcolor="#eeeeee"
| PXE_ROM_ID || payloads/external/iPXE || string || network card PCI IDs ||
The comma-separated PCI vendor and device ID that would associate
your PXE ROM to your network card.
 
Example: 10ec,8168
 
In the above example 10ec is the PCI vendor ID (in hex, but without
the "0x" prefix) and 8168 specifies the PCI device ID of the
network card (also in hex, without "0x" prefix).
 
Under GNU/Linux you can run `lspci -nn` to list the IDs of your PCI devices.
 
||
 
|- bgcolor="#eeeeee"
| FILO_STABLE || payloads/external/FILO || bool || 0.6.0 ||
Stable FILO version
 
||
|- bgcolor="#eeeeee"
| FILO_MASTER || payloads/external/FILO || bool || HEAD ||
Newest FILO version
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_FILE || payloads/external/linux || string || Linux path and filename ||
The path and filename of the bzImage kernel to use as payload.
 
||
|- bgcolor="#eeeeee"
| LINUX_COMMAND_LINE || payloads/external/linux || string || Linux command line ||
A command line to add to the Linux kernel.
 
||
|- bgcolor="#eeeeee"
| LINUX_INITRD || payloads/external/linux || string || Linux initrd ||
An initrd image to add to the Linux kernel.
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_FILE || payloads/external/tianocore || string || Tianocore binary ||
The result of a corebootPkg build
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_FILE || payloads/external/tianocore || string || Tianocore version ||
Select which version of Tianocore to build (default is to build stable)
stable: a version of Tianocore that builds without any errors
master: most recent version from upstream Tianocore repository
revision: use specific commit or branch to build Tianocore (specified by user)
 
||
|- bgcolor="#eeeeee"
| TIANOCORE_STABLE || payloads/external/tianocore || bool || stable ||
Select this option to build the stable tianocore version
i.e. a version of Tianocore that builds without any errors
 
||
|- bgcolor="#eeeeee"
| TIANOCORE_MASTER || payloads/external/tianocore || bool || master ||
Select this option to build the master tianocore version
i.e. most recent version from upstream Tianocore repository
 
||
|- bgcolor="#eeeeee"
| TIANOCORE_REVISION || payloads/external/tianocore || bool || git revision ||
Select this option if you have a specific commit or branch
that you want to use as the revision from which to
build Tianocore.
 
You will be able to specify the name of a branch or a commit id
later.
 
||
|- bgcolor="#eeeeee"
| TIANOCORE_REVISION_ID || payloads/external/tianocore || string || Insert a commit's SHA-1 or a branch name ||
The commit's SHA-1 or branch name of the revision to use.
 
||
|- bgcolor="#eeeeee"
| TIANOCORE_REVISION_ID || payloads/external/tianocore || string || Target architecture ||
The Tianocore coreboot Payload Package binary can be
built for either only IA32 or both X64 and IA32 architectures.
Select which architecture(s) to build for; default is to build
for both X64 and IA32.
 
||
|- bgcolor="#eeeeee"
| TIANOCORE_TARGET_IA32 || payloads/external/tianocore || bool || IA32 ||
By selecting this option, the target architecture will be built
for only IA32.
 
||
|- bgcolor="#eeeeee"
| TIANOCORE_TARGET_X64 || payloads/external/tianocore || bool || X64 ||
By selecting this option, the target architecture will be built
for X64 and IA32.
 
||
|- bgcolor="#eeeeee"
| TIANOCORE_TARGET_X64 || payloads/external/tianocore || bool || Tianocore build ||
Select whether to generate a debug or release build for
Tianocore; default is to generate a release build.
 
||
|- bgcolor="#eeeeee"
| TIANOCORE_DEBUG || payloads/external/tianocore || bool || Generate Tianocore debug build ||
Generate a debug build.
 
||
|- bgcolor="#eeeeee"
| TIANOCORE_RELEASE || payloads/external/tianocore || bool || Generate Tianocore release build ||
Generate a release build.
 
||
|- bgcolor="#eeeeee"
| GRUB2_MASTER || payloads/external/GRUB2 || bool || HEAD ||
Newest GRUB2 version
 
||
|- bgcolor="#eeeeee"
| GRUB2_REVISION || payloads/external/GRUB2 || bool || git revision ||
Select this option if you have a specific commit or branch
that you want to use as the revision from which to
build GRUB2.
 
You will be able to specify the name of a branch or a commit id
later.
||
|- bgcolor="#eeeeee"
| GRUB2_REVISION_ID || payloads/external/GRUB2 || string || Insert a commit's SHA-1 or a branch name ||
The commit's SHA-1 or branch name of the revision to use.
 
||
|- bgcolor="#eeeeee"
| GRUB2_EXTRA_MODULES || payloads/external/GRUB2 || string || Extra modules to include in GRUB image ||
Space-separated list of additional modules to include. Few common
ones:
* bsd for *BSD
* png/jpg for PNG/JPG images
* gfxmenu for graphical menus (you'll need a theme as well)
* gfxterm_background for setting background
 
||
|- bgcolor="#eeeeee"
| GRUB2_INCLUDE_RUNTIME_CONFIG_FILE || payloads/external/GRUB2 || bool || Include GRUB2 runtime config file into ROM image ||
The GRUB2 payload reads its runtime configuration file from etc/grub.cfg
stored in the CBFS on the flash ROM chip. Without that, it’ll just drop
into a rescue shell.
 
This configuration may need to be coreboot specific.
 
Select this option, if you want to include the GRUB2 runtime
configuration file into CBFS as `etc/grub.cfg` automatically.
 
You will be able to specify the path of the configuration file later.
 
Without this option you would need to add this file manually with
build/cbfstool build/coreboot.rom add -f grub.cfg -n etc/grub.cfg -t raw
 
||
|- bgcolor="#eeeeee"
| GRUB2_RUNTIME_CONFIG_FILE || payloads/external/GRUB2 || string || Path of grub.cfg ||
The path of the GRUB2 runtime configuration file to be added to CBFS.
 
||
|- bgcolor="#eeeeee"
| DEPTHCHARGE_STABLE || payloads/external/depthcharge || bool || stable ||
Latest stable version.
 
||
|- bgcolor="#eeeeee"
| DEPTHCHARGE_MASTER || payloads/external/depthcharge || bool || master ||
Newest Depthcharge version.
 
||
|- bgcolor="#eeeeee"
| DEPTHCHARGE_REVISION || payloads/external/depthcharge || bool || git revision ||
Select this option if you have a specific commit or branch that
you want to use as the revision from which to build Depthcharge.
 
You will be able to specify the name of a branch or a commit SHA
later.
 
||
|- bgcolor="#eeeeee"
| DEPTHCHARGE_REVISION_ID || payloads/external/depthcharge || string || Insert a commit's SHA-1 or a branch name ||
The commit's SHA-1 or branch name of the revision to use.
 
||
|- bgcolor="#eeeeee"
| LP_DEFCONFIG_OVERRIDE || payloads/external/depthcharge || bool || Use default libpayload config ||
The Depthcharge makefile looks for a file config.<boardname> in the
libpayload/configs directory.  Say Y here to use the file defconfig
instead.  This is can be a convenience for development purposes, or
if the defaults in defconfig are sufficient for your system.
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_FILE || payloads || string || Payload path and filename ||
The path and filename of the ELF executable file to use as payload.
 
||
|- bgcolor="#eeeeee"
| COMPRESSED_PAYLOAD_LZMA || payloads || bool || Use LZMA compression for payloads ||
In order to reduce the size payloads take up in the ROM chip
coreboot can compress them using the LZMA algorithm.
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_OPTIONS || payloads || string ||  ||
Additional cbfstool options for the payload
 
||
|- bgcolor="#eeeeee"
| PAYLOAD_IS_FLAT_BINARY || payloads || string ||  ||
Add the payload to cbfs as a flat binary type instead of as an
elf payload
 
||
|- bgcolor="#6699dd"
! align="left" | Menu: Secondary Payloads || || || ||
|- bgcolor="#eeeeee"
| COREINFO_SECONDARY_PAYLOAD || payloads || bool || Load coreinfo as a secondary payload ||
coreinfo can be loaded as a secondary payload under SeaBIOS, GRUB,
or any other payload that can load additional payloads.
 
||
|- bgcolor="#eeeeee"
| MEMTEST_SECONDARY_PAYLOAD || payloads || bool || Load Memtest86+ as a secondary payload ||
Memtest86+ can be loaded as a secondary payload under SeaBIOS, GRUB,
or any other payload that can load additional payloads.
 
||
|- bgcolor="#eeeeee"
| MEMTEST_STABLE || payloads || bool || Stable ||
Stable Memtest86+ version.
 
For reproducible builds, this option must be selected.
||
|- bgcolor="#eeeeee"
| MEMTEST_MASTER || payloads || bool || Master ||
Newest Memtest86+ version.
 
This option will fetch the newest version of the Memtest86+ code,
updating as new changes are committed.  This makes the build
non-reproducible, as it can fetch different code each time.
||
|- bgcolor="#eeeeee"
| NVRAMCUI_SECONDARY_PAYLOAD || payloads || bool || Load nvramcui as a secondary payload ||
nvramcui can be loaded as a secondary payload under SeaBIOS, GRUB,
or any other payload that can load additional payloads.
 
||
|- bgcolor="#eeeeee"
| TINT_SECONDARY_PAYLOAD || payloads || bool || Load tint as a secondary payload ||
tint can be loaded as a secondary payload under SeaBIOS, GRUB,
or any other payload that can load additional payloads.
 
||
 
 
|- bgcolor="#6699dd"
! align="left" | Menu: Debugging || || || ||
|- bgcolor="#eeeeee"
| GDB_STUB || toplevel || bool || GDB debugging support ||
If enabled, you will be able to set breakpoints for gdb debugging.
See src/arch/x86/lib/c_start.S for details.
 
||
|- bgcolor="#eeeeee"
| GDB_WAIT || toplevel || bool || Wait for a GDB connection in the ramstage ||
If enabled, coreboot will wait for a GDB connection in the ramstage.
 
 
||
|- bgcolor="#eeeeee"
| FATAL_ASSERTS || toplevel || bool || Halt when hitting a BUG() or assertion error ||
If enabled, coreboot will call hlt() on a BUG() or failed ASSERT().
 
||
|- bgcolor="#eeeeee"
| DEBUG_CBFS || toplevel || bool || Output verbose CBFS debug messages ||
This option enables additional CBFS related debug messages.
 
||
|- bgcolor="#eeeeee"
| DEBUG_RAM_SETUP || toplevel || bool || Output verbose RAM init debug messages ||
This option enables additional RAM init related debug messages.
It is recommended to enable this when debugging issues on your
board which might be RAM init related.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| DEBUG_CAR || toplevel || bool || Output verbose Cache-as-RAM debug messages ||
This option enables additional CAR related debug messages.
||
|- bgcolor="#eeeeee"
| DEBUG_PIRQ || toplevel || bool || Check PIRQ table consistency ||
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| DEBUG_SMBUS || toplevel || bool || Output verbose SMBus debug messages ||
This option enables additional SMBus (and SPD) debug messages.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| DEBUG_SMI || toplevel || bool || Output verbose SMI debug messages ||
This option enables additional SMI related debug messages.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| DEBUG_SMM_RELOCATION || toplevel || bool || Debug SMM relocation code ||
This option enables additional SMM handler relocation related
debug messages.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| DEBUG_MALLOC || toplevel || bool || Output verbose malloc debug messages ||
This option enables additional malloc related debug messages.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| DEBUG_ACPI || toplevel || bool || Output verbose ACPI debug messages ||
This option enables additional ACPI related debug messages.
 
Note: This option will slightly increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| REALMODE_DEBUG || toplevel || bool || Enable debug messages for option ROM execution ||
This option enables additional x86emu related debug messages.
 
Note: This option will increase the time to emulate a ROM.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG || toplevel || bool || Output verbose x86emu debug messages ||
This option enables additional x86emu related debug messages.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG_JMP || toplevel || bool || Trace JMP/RETF ||
Print information about JMP and RETF opcodes from x86emu.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG_TRACE || toplevel || bool || Trace all opcodes ||
Print _all_ opcodes that are executed by x86emu.
 
WARNING: This will produce a LOT of output and take a long time.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG_PNP || toplevel || bool || Log Plug&Play accesses ||
Print Plug And Play accesses made by option ROMs.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG_DISK || toplevel || bool || Log Disk I/O ||
Print Disk I/O related messages.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG_PMM || toplevel || bool || Log PMM ||
Print messages related to POST Memory Manager (PMM).
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG_VBE || toplevel || bool || Debug VESA BIOS Extensions ||
Print messages related to VESA BIOS Extension (VBE) functions.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG_INT10 || toplevel || bool || Redirect INT10 output to console ||
Let INT10 (i.e. character output) calls print messages to debug output.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG_INTERRUPTS || toplevel || bool || Log intXX calls ||
Print messages related to interrupt handling.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG_CHECK_VMEM_ACCESS || toplevel || bool || Log special memory accesses ||
Print messages related to accesses to certain areas of the virtual
memory (e.g. BDA (BIOS Data Area) or interrupt vectors)
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG_MEM || toplevel || bool || Log all memory accesses ||
Print memory accesses made by option ROM.
Note: This also includes accesses to fetch instructions.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG_IO || toplevel || bool || Log IO accesses ||
Print I/O accesses made by option ROM.
 
Note: This option will increase the size of the coreboot image.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| X86EMU_DEBUG_TIMINGS || toplevel || bool || Output timing information ||
Print timing information needed by i915tool.
 
If unsure, say N.
 
||
|- bgcolor="#eeeeee"
| DEBUG_TPM || toplevel || bool || Output verbose TPM debug messages ||
This option enables additional TPM related debug messages.
 
||
|- bgcolor="#eeeeee"
| DEBUG_SPI_FLASH || toplevel || bool || Output verbose SPI flash debug messages ||
This option enables additional SPI flash related debug messages.
 
||
|- bgcolor="#eeeeee"
| DEBUG_USBDEBUG || toplevel || bool || Output verbose USB 2.0 EHCI debug dongle messages ||
This option enables additional USB 2.0 debug dongle related messages.
 
Select this to debug the connection of usbdebug dongle. Note that
you need some other working console to receive the messages.
 
||
|- bgcolor="#eeeeee"
| DEBUG_INTEL_ME || toplevel || bool || Verbose logging for Intel Management Engine ||
Enable verbose logging for Intel Management Engine driver that
is present on Intel 6-series chipsets.
||
|- bgcolor="#eeeeee"
| TRACE || toplevel || bool || Trace function calls ||
If enabled, every function will print information to console once
the function is entered. The syntax is ~0xaaaabbbb(0xccccdddd)
the 0xaaaabbbb is the actual function and 0xccccdddd is EIP
of calling function. Please note some printk related functions
are omitted from trace to have good looking console dumps.
 
||
|- bgcolor="#eeeeee"
| DEBUG_COVERAGE || toplevel || bool || Debug code coverage ||
If enabled, the code coverage hooks in coreboot will output some
information about the coverage data that is dumped.
 
||
|- bgcolor="#eeeeee"
| DEBUG_BOOT_STATE || toplevel || bool || Debug boot state machine ||
Control debugging of the boot state machine.  When selected displays
the state boundaries in ramstage.
 
||
|- bgcolor="#eeeeee"
| DEBUG_PRINT_PAGE_TABLES || toplevel || bool || Print the page tables after construction ||
After the page tables have been built, print them on the debug
console.
 
||
|- bgcolor="#eeeeee"
| DEBUG_ADA_CODE || toplevel || bool || Compile debug code in Ada sources ||
Add the compiler switch `-gnata` to compile code guarded by
`pragma Debug`.
 
||
 
|- bgcolor="#eeeeee"
| NO_EDID_FILL_FB || lib || bool ||  ||
Don't include default fill_lb_framebuffer() implementation. Select
this if your drivers uses MAINBOARD_DO_NATIVE_VGA_INIT but provides
its own fill_lb_framebuffer() implementation.
 
||
 
||
|- bgcolor="#eeeeee"
| POWER_BUTTON_DEFAULT_ENABLE || toplevel || bool ||  ||
Select when the board has a power button which can optionally be
disabled by the user.
 
||
|- bgcolor="#eeeeee"
| POWER_BUTTON_DEFAULT_DISABLE || toplevel || bool ||  ||
Select when the board has a power button which can optionally be
enabled by the user, e.g. when the board ships with a jumper over
the power switch contacts.
 
||
|- bgcolor="#eeeeee"
| POWER_BUTTON_FORCE_ENABLE || toplevel || bool ||  ||
Select when the board requires that the power button is always
enabled.
 
||
|- bgcolor="#eeeeee"
| POWER_BUTTON_FORCE_DISABLE || toplevel || bool ||  ||
Select when the board requires that the power button is always
disabled, e.g. when it has been hardwired to ground.
 
||
|- bgcolor="#eeeeee"
| POWER_BUTTON_IS_OPTIONAL || toplevel || bool ||  ||
Internal option that controls ENABLE_POWER_BUTTON visibility.
 
||
|- bgcolor="#eeeeee"
| REG_SCRIPT || toplevel || bool ||  ||
Internal option that controls whether we compile in register scripts.
 
||
|- bgcolor="#eeeeee"
| MAX_REBOOT_CNT || toplevel || int ||  ||
Internal option that sets the maximum number of bootblock executions allowed
with the normal image enabled before assuming the normal image is defective
and switching to the fallback image.
 
||
|- bgcolor="#eeeeee"
| CREATE_BOARD_CHECKLIST || toplevel || bool ||  ||
When selected, creates a webpage showing the implementation status for
the board.  Routines highlighted in green are complete, yellow are
optional and red are required and must be implemented.  A table is
produced for each stage of the boot process except the bootblock.  The
red items may be used as an implementation checklist for the board.
 
||
|- bgcolor="#eeeeee"
| MAKE_CHECKLIST_PUBLIC || toplevel || bool ||  ||
When selected, build/$(CONFIG_MAINBOARD_PART_NUMBER)_checklist.html
is copied into the Documentation/$(CONFIG_MAINBOARD_VENDOR)/Board
directory.
 
||
|- bgcolor="#eeeeee"
| CHECKLIST_DATA_FILE_LOCATION || toplevel || string ||  ||
Location of the <stage>_complete.dat and <stage>_optional.dat files
that are consumed during checklist processing.  <stage>_complete.dat
contains the symbols that are expected to be in the resulting image.
<stage>_optional.dat is a subset of <stage>_complete.dat and contains
a list of weak symbols which the resulting image may consume.  Other
symbols contained only in <stage>_complete.dat will be flagged as
required and not implemented if a weak implementation is found in the
resulting image.
 
||
|- bgcolor="#eeeeee"
| RAMSTAGE_ADA || toplevel || string ||  ||
Selected by features that use Ada code in ramstage.
 
||
|- bgcolor="#eeeeee"
| RAMSTAGE_LIBHWBASE || toplevel || string ||  ||
Selected by features that require `libhwbase` in ramstage.
 
||
|- bgcolor="#eeeeee"
| NO_XIP_EARLY_STAGES || toplevel || bool ||  ||
Identify if early stages are eXecute-In-Place(XIP).
 
||
|- bgcolor="#eeeeee"
| EARLY_CBMEM_LIST || toplevel || bool ||  ||
Enable display of CBMEM during romstage and postcar.
 
||
|- bgcolor="#eeeeee"
| RELOCATABLE_MODULES || toplevel || bool ||  ||
If RELOCATABLE_MODULES is selected then support is enabled for
building relocatable modules in the RAM stage. Those modules can be
loaded anywhere and all the relocations are handled automatically.
 
||
|- bgcolor="#eeeeee"
| NO_STAGE_CACHE || toplevel || bool ||  ||
Do not save any component in stage cache for resume path. On resume,
all components would be read back from CBFS again.
 
||
|- bgcolor="#eeeeee"
| GENERIC_GPIO_LIB || toplevel || bool ||  ||
If enabled, compile the generic GPIO library. A "generic" GPIO
implies configurability usually found on SoCs, particularly the
ability to control internal pull resistors.
 
||
|- bgcolor="#eeeeee"
| GENERIC_SPD_BIN || toplevel || bool ||  ||
If enabled, add support for adding spd.hex files in cbfs as spd.bin
and locating it runtime to load SPD. Additionally provide provision to
fetch SPD over SMBus.
 
||
|- bgcolor="#eeeeee"
| DIMM_MAX || toplevel || int ||  ||
Total number of memory DIMM slots available on motherboard.
It is multiplication of number of channel to number of DIMMs per
channel
 
||
|- bgcolor="#eeeeee"
| DIMM_SPD_SIZE || toplevel || int ||  ||
Total SPD size that will be used for DIMM.
Ex: DDR3 256, DDR4 512.
 
||
|- bgcolor="#eeeeee"
| BOARD_ID_AUTO || toplevel || bool ||  ||
Mainboards that can read a board ID from the hardware straps
(ie. GPIO) select this configuration option.
 
||
|- bgcolor="#eeeeee"
| BOARD_ID_MANUAL || toplevel || bool ||  ||
If you want to maintain a board ID, but the hardware does not
have straps to automatically determine the ID, you can say Y
here and add a file named 'board_id' to CBFS. If you don't know
what this is about, say N.
 
||
|}

Latest revision as of 20:02, 9 June 2018

This page redirects to an external site: https://coreboot.org/status/kconfig-options.html