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|
menu "x86 architecture"
depends on X86
config SYS_ARCH
default "x86"
choice
prompt "Run U-Boot in 32/64-bit mode"
default X86_RUN_32BIT
help
U-Boot can be built as a 32-bit binary which runs in 32-bit mode
even on 64-bit machines. In this case SPL is not used, and U-Boot
runs directly from the reset vector (via 16-bit start-up).
Alternatively it can be run as a 64-bit binary, thus requiring a
64-bit machine. In this case SPL runs in 32-bit mode (via 16-bit
start-up) then jumps to U-Boot in 64-bit mode.
For now, 32-bit mode is recommended, as 64-bit is still
experimental and is missing a lot of features.
config X86_RUN_32BIT
bool "32-bit"
help
Build U-Boot as a 32-bit binary with no SPL. This is the currently
supported normal setup. U-Boot will stay in 32-bit mode even on
64-bit machines. When booting a 64-bit kernel, U-Boot will switch
to 64-bit just before starting the kernel. Only the bottom 4GB of
memory can be accessed through normal means, although
arch_phys_memset() can be used for basic access to other memory.
config X86_RUN_64BIT
bool "64-bit"
select X86_64
select SPL if !EFI_APP
select SPL_SEPARATE_BSS if !EFI_APP
help
Build U-Boot as a 64-bit binary with a 32-bit SPL. This is
experimental and many features are missing. U-Boot SPL starts up,
runs through the 16-bit and 32-bit init, then switches to 64-bit
mode and jumps to U-Boot proper.
endchoice
config X86_64
bool
config SPL_X86_64
bool
depends on SPL
choice
prompt "Mainboard vendor"
default VENDOR_EMULATION
config VENDOR_ADVANTECH
bool "advantech"
config VENDOR_CONGATEC
bool "congatec"
config VENDOR_COREBOOT
bool "coreboot"
config VENDOR_DFI
bool "dfi"
config VENDOR_EFI
bool "efi"
config VENDOR_EMULATION
bool "emulation"
config VENDOR_GOOGLE
bool "Google"
config VENDOR_INTEL
bool "Intel"
endchoice
# subarchitectures-specific options below
config INTEL_MID
bool "Intel MID platform support"
select REGMAP
select SYSCON
help
Select to build a U-Boot capable of supporting Intel MID
(Mobile Internet Device) platform systems which do not have
the PCI legacy interfaces.
If you are building for a PC class system say N here.
Intel MID platforms are based on an Intel processor and
chipset which consume less power than most of the x86
derivatives.
# board-specific options below
source "board/advantech/Kconfig"
source "board/congatec/Kconfig"
source "board/coreboot/Kconfig"
source "board/dfi/Kconfig"
source "board/efi/Kconfig"
source "board/emulation/Kconfig"
source "board/google/Kconfig"
source "board/intel/Kconfig"
# platform-specific options below
source "arch/x86/cpu/apollolake/Kconfig"
source "arch/x86/cpu/baytrail/Kconfig"
source "arch/x86/cpu/braswell/Kconfig"
source "arch/x86/cpu/broadwell/Kconfig"
source "arch/x86/cpu/coreboot/Kconfig"
source "arch/x86/cpu/ivybridge/Kconfig"
source "arch/x86/cpu/efi/Kconfig"
source "arch/x86/cpu/qemu/Kconfig"
source "arch/x86/cpu/quark/Kconfig"
source "arch/x86/cpu/queensbay/Kconfig"
source "arch/x86/cpu/slimbootloader/Kconfig"
source "arch/x86/cpu/tangier/Kconfig"
# architecture-specific options below
config AHCI
default y
config SYS_MALLOC_F_LEN
default 0x800
config RAMBASE
hex
default 0x100000
config XIP_ROM_SIZE
hex
depends on X86_RESET_VECTOR
default ROM_SIZE
config CPU_ADDR_BITS
int
default 36
config HPET_ADDRESS
hex
default 0xfed00000 if !HPET_ADDRESS_OVERRIDE
config SMM_TSEG
bool
config SMM_TSEG_SIZE
hex
config X86_RESET_VECTOR
bool
select BINMAN
# The following options control where the 16-bit and 32-bit init lies
# If SPL is enabled then it normally holds this init code, and U-Boot proper
# is normally a 64-bit build.
#
# The 16-bit init refers to the reset vector and the small amount of code to
# get the processor into 32-bit mode. It may be in SPL or in U-Boot proper,
# or missing altogether if U-Boot is started from EFI or coreboot.
#
# The 32-bit init refers to processor init, running binary blobs including
# FSP, setting up interrupts and anything else that needs to be done in
# 32-bit code. It is normally in the same place as 16-bit init if that is
# enabled (i.e. they are both in SPL, or both in U-Boot proper).
config X86_16BIT_INIT
bool
depends on X86_RESET_VECTOR
default y if X86_RESET_VECTOR && !SPL
help
This is enabled when 16-bit init is in U-Boot proper
config SPL_X86_16BIT_INIT
bool
depends on X86_RESET_VECTOR
default y if X86_RESET_VECTOR && SPL && !TPL
help
This is enabled when 16-bit init is in SPL
config TPL_X86_16BIT_INIT
bool
depends on X86_RESET_VECTOR
default y if X86_RESET_VECTOR && TPL
help
This is enabled when 16-bit init is in TPL
config X86_32BIT_INIT
bool
depends on X86_RESET_VECTOR
default y if X86_RESET_VECTOR && !SPL
help
This is enabled when 32-bit init is in U-Boot proper
config SPL_X86_32BIT_INIT
bool
depends on X86_RESET_VECTOR
default y if X86_RESET_VECTOR && SPL
help
This is enabled when 32-bit init is in SPL
config USE_EARLY_BOARD_INIT
bool
config RESET_SEG_START
hex
depends on X86_RESET_VECTOR
default 0xffff0000
config RESET_VEC_LOC
hex
depends on X86_RESET_VECTOR
default 0xfffffff0
config SYS_X86_START16
hex
depends on X86_RESET_VECTOR
default 0xfffff800
config HAVE_X86_FIT
bool
help
Enable inclusion of an Intel Firmware Interface Table (FIT) into the
image. This table is supposed to point to microcode and the like. So
far it is just a fixed table with the minimum set of headers, so that
it is actually present.
config X86_LOAD_FROM_32_BIT
bool "Boot from a 32-bit program"
help
Define this to boot U-Boot from a 32-bit program which sets
the GDT differently. This can be used to boot directly from
any stage of coreboot, for example, bypassing the normal
payload-loading feature.
config BOARD_ROMSIZE_KB_512
bool
config BOARD_ROMSIZE_KB_1024
bool
config BOARD_ROMSIZE_KB_2048
bool
config BOARD_ROMSIZE_KB_4096
bool
config BOARD_ROMSIZE_KB_8192
bool
config BOARD_ROMSIZE_KB_16384
bool
choice
prompt "ROM chip size"
depends on X86_RESET_VECTOR
default UBOOT_ROMSIZE_KB_512 if BOARD_ROMSIZE_KB_512
default UBOOT_ROMSIZE_KB_1024 if BOARD_ROMSIZE_KB_1024
default UBOOT_ROMSIZE_KB_2048 if BOARD_ROMSIZE_KB_2048
default UBOOT_ROMSIZE_KB_4096 if BOARD_ROMSIZE_KB_4096
default UBOOT_ROMSIZE_KB_8192 if BOARD_ROMSIZE_KB_8192
default UBOOT_ROMSIZE_KB_16384 if BOARD_ROMSIZE_KB_16384
help
Select the size of the ROM chip you intend to flash U-Boot on.
The build system will take care of creating a u-boot.rom file
of the matching size.
config UBOOT_ROMSIZE_KB_512
bool "512 KB"
help
Choose this option if you have a 512 KB ROM chip.
config UBOOT_ROMSIZE_KB_1024
bool "1024 KB (1 MB)"
help
Choose this option if you have a 1024 KB (1 MB) ROM chip.
config UBOOT_ROMSIZE_KB_2048
bool "2048 KB (2 MB)"
help
Choose this option if you have a 2048 KB (2 MB) ROM chip.
config UBOOT_ROMSIZE_KB_4096
bool "4096 KB (4 MB)"
help
Choose this option if you have a 4096 KB (4 MB) ROM chip.
config UBOOT_ROMSIZE_KB_8192
bool "8192 KB (8 MB)"
help
Choose this option if you have a 8192 KB (8 MB) ROM chip.
config UBOOT_ROMSIZE_KB_16384
bool "16384 KB (16 MB)"
help
Choose this option if you have a 16384 KB (16 MB) ROM chip.
endchoice
# Map the config names to an integer (KB).
config UBOOT_ROMSIZE_KB
int
default 512 if UBOOT_ROMSIZE_KB_512
default 1024 if UBOOT_ROMSIZE_KB_1024
default 2048 if UBOOT_ROMSIZE_KB_2048
default 4096 if UBOOT_ROMSIZE_KB_4096
default 8192 if UBOOT_ROMSIZE_KB_8192
default 16384 if UBOOT_ROMSIZE_KB_16384
# Map the config names to a hex value (bytes).
config ROM_SIZE
hex
default 0x80000 if UBOOT_ROMSIZE_KB_512
default 0x100000 if UBOOT_ROMSIZE_KB_1024
default 0x200000 if UBOOT_ROMSIZE_KB_2048
default 0x400000 if UBOOT_ROMSIZE_KB_4096
default 0x800000 if UBOOT_ROMSIZE_KB_8192
default 0xc00000 if UBOOT_ROMSIZE_KB_12288
default 0x1000000 if UBOOT_ROMSIZE_KB_16384
config HAVE_INTEL_ME
bool "Platform requires Intel Management Engine"
help
Newer higher-end devices have an Intel Management Engine (ME)
which is a very large binary blob (typically 1.5MB) which is
required for the platform to work. This enforces a particular
SPI flash format. You will need to supply the me.bin file in
your board directory.
config X86_RAMTEST
bool "Perform a simple RAM test after SDRAM initialisation"
help
If there is something wrong with SDRAM then the platform will
often crash within U-Boot or the kernel. This option enables a
very simple RAM test that quickly checks whether the SDRAM seems
to work correctly. It is not exhaustive but can save time by
detecting obvious failures.
config FLASH_DESCRIPTOR_FILE
string "Flash descriptor binary filename"
depends on HAVE_INTEL_ME || FSP_VERSION2
default "descriptor.bin"
help
The filename of the file to use as flash descriptor in the
board directory.
config INTEL_ME_FILE
string "Intel Management Engine binary filename"
depends on HAVE_INTEL_ME
default "me.bin"
help
The filename of the file to use as Intel Management Engine in the
board directory.
config USE_HOB
bool "Use HOB (Hand-Off Block)"
help
Select this option to access HOB (Hand-Off Block) data structures
and parse HOBs. This HOB infra structure can be reused with
different solutions across different platforms.
config HAVE_FSP
bool "Add an Firmware Support Package binary"
depends on !EFI
select USE_HOB
select HAS_ROM
help
Select this option to add an Firmware Support Package binary to
the resulting U-Boot image. It is a binary blob which U-Boot uses
to set up SDRAM and other chipset specific initialization.
Note: Without this binary U-Boot will not be able to set up its
SDRAM so will not boot.
config USE_CAR
bool "Use Cache-As-RAM (CAR) to get temporary RAM at start-up"
default y if !HAVE_FSP
help
Select this option if your board uses CAR init code, typically in a
car.S file, to get some initial memory for code execution. This is
common with Intel CPUs which don't use FSP.
choice
prompt "FSP version"
depends on HAVE_FSP
default FSP_VERSION1
help
Selects the FSP version to use. Intel has published several versions
of the FSP External Architecture Specification and this allows
selection of the version number used by a particular SoC.
config FSP_VERSION1
bool "FSP version 1.x"
help
This covers versions 1.0 and 1.1a. See here for details:
https://github.com/IntelFsp/fsp/wiki
config FSP_VERSION2
bool "FSP version 2.x"
select DM_EVENT
help
This covers versions 2.0 and 2.1. See here for details:
https://github.com/IntelFsp/fsp/wiki
endchoice
config FSP_FILE
string "Firmware Support Package binary filename"
depends on FSP_VERSION1
default "fsp.bin"
help
The filename of the file to use as Firmware Support Package binary
in the board directory.
config FSP_ADDR
hex "Firmware Support Package binary location"
depends on FSP_VERSION1
default 0xfffc0000
help
FSP is not Position Independent Code (PIC) and the whole FSP has to
be rebased if it is placed at a location which is different from the
perferred base address specified during the FSP build. Use Intel's
Binary Configuration Tool (BCT) to do the rebase.
The default base address of 0xfffc0000 indicates that the binary must
be located at offset 0xc0000 from the beginning of a 1MB flash device.
if FSP_VERSION2
config FSP_FILE_T
string "Firmware Support Package binary filename (Temp RAM)"
default "fsp_t.bin"
help
The filename of the file to use for the temporary-RAM init phase from
the Firmware Support Package binary. Put this in the board directory.
It is used to set up an initial area of RAM which can be used for the
stack and other purposes, while bringing up the main system DRAM.
config FSP_ADDR_T
hex "Firmware Support Package binary location (Temp RAM)"
default 0xffff8000
help
FSP is not Position-Independent Code (PIC) and FSP components have to
be rebased if placed at a location which is different from the
perferred base address specified during the FSP build. Use Intel's
Binary Configuration Tool (BCT) to do the rebase.
config FSP_FILE_M
string "Firmware Support Package binary filename (Memory Init)"
default "fsp_m.bin"
help
The filename of the file to use for the RAM init phase from the
Firmware Support Package binary. Put this in the board directory.
It is used to set up the main system DRAM and runs in SPL, once
temporary RAM (CAR) is working.
config FSP_FILE_S
string "Firmware Support Package binary filename (Silicon Init)"
default "fsp_s.bin"
help
The filename of the file to use for the Silicon init phase from the
Firmware Support Package binary. Put this in the board directory.
It is used to set up the silicon to work correctly and must be
executed after DRAM is running.
config IFWI_INPUT_FILE
string "Filename containing FIT (Firmware Interface Table) with IFWI"
default "fitimage.bin"
help
The IFWI is obtained by running a tool on this file to extract the
IFWI. Put this in the board directory. The IFWI contains U-Boot TPL,
microcode and other internal items.
endif
config FSP_TEMP_RAM_ADDR
hex
depends on FSP_VERSION1
default 0x2000000
help
Stack top address which is used in fsp_init() after DRAM is ready and
CAR is disabled.
config FSP_SYS_MALLOC_F_LEN
hex
depends on FSP_VERSION1
default 0x100000
help
Additional size of malloc() pool before relocation.
config FSP_USE_UPD
bool
depends on FSP_VERSION1
default y if !NORTHBRIDGE_INTEL_IVYBRIDGE
help
Most FSPs use UPD data region for some FSP customization. But there
are still some FSPs that might not even have UPD. For such FSPs,
override this to n in their platform Kconfig files.
config FSP_BROKEN_HOB
bool
depends on FSP_VERSION1
help
Indicate some buggy FSPs that does not report memory used by FSP
itself as reserved in the resource descriptor HOB. Select this to
tell U-Boot to do some additional work to ensure U-Boot relocation
do not overwrite the important boot service data which is used by
FSP, otherwise the subsequent call to fsp_notify() will fail.
config ENABLE_MRC_CACHE
bool "Enable MRC cache"
depends on !EFI && !SYS_COREBOOT
help
Enable this feature to cause MRC data to be cached in NV storage
to be used for speeding up boot time on future reboots and/or
power cycles.
For platforms that use Intel FSP for the memory initialization,
please check FSP output HOB via U-Boot command 'fsp hob' to see
if there is FSP_NON_VOLATILE_STORAGE_HOB_GUID (asm/fsp1/fsp_hob.h).
If such GUID does not exist, MRC cache is not available on such
platform (eg: Intel Queensbay), which means selecting this option
here does not make any difference.
config HAVE_MRC
bool "Add a System Agent binary"
select HAS_ROM
depends on !HAVE_FSP
help
Select this option to add a System Agent binary to
the resulting U-Boot image. MRC stands for Memory Reference Code.
It is a binary blob which U-Boot uses to set up SDRAM.
Note: Without this binary U-Boot will not be able to set up its
SDRAM so will not boot.
config CACHE_MRC_BIN
bool
depends on HAVE_MRC
help
Enable caching for the memory reference code binary. This uses an
MTRR (memory type range register) to turn on caching for the section
of SPI flash that contains the memory reference code. This makes
SDRAM init run faster.
config CACHE_MRC_SIZE_KB
int
depends on HAVE_MRC
default 512
help
Sets the size of the cached area for the memory reference code.
This ends at the end of SPI flash (address 0xffffffff) and is
measured in KB. Typically this is set to 512, providing for 0.5MB
of cached space.
config DCACHE_RAM_BASE
hex
depends on HAVE_MRC
help
Sets the base of the data cache area in memory space. This is the
start address of the cache-as-RAM (CAR) area and the address varies
depending on the CPU. Once CAR is set up, read/write memory becomes
available at this address and can be used temporarily until SDRAM
is working.
config DCACHE_RAM_SIZE
hex
depends on HAVE_MRC
default 0x40000
help
Sets the total size of the data cache area in memory space. This
sets the size of the cache-as-RAM (CAR) area. Note that much of the
CAR space is required by the MRC. The CAR space available to U-Boot
is normally at the start and typically extends to 1/4 or 1/2 of the
available size.
config DCACHE_RAM_MRC_VAR_SIZE
hex
depends on HAVE_MRC
help
This is the amount of CAR (Cache as RAM) reserved for use by the
memory reference code. This depends on the implementation of the
memory reference code and must be set correctly or the board will
not boot.
config HAVE_REFCODE
bool "Add a Reference Code binary"
help
Select this option to add a Reference Code binary to the resulting
U-Boot image. This is an Intel binary blob that handles system
initialisation, in this case the PCH and System Agent.
Note: Without this binary (on platforms that need it such as
broadwell) U-Boot will be missing some critical setup steps.
Various peripherals may fail to work.
config HAVE_MICROCODE
bool "Board requires a microcode binary"
default y if !FSP_VERSION2
help
Enable this if the board requires microcode to be loaded on boot.
Typically this is handed by the FSP for modern boards, but for
some older boards, it must be programmed by U-Boot, and that form
part of the image.
config SMP
bool "Enable Symmetric Multiprocessing"
help
Enable use of more than one CPU in U-Boot and the Operating System
when loaded. Each CPU will be started up and information can be
obtained using the 'cpu' command. If this option is disabled, then
only one CPU will be enabled regardless of the number of CPUs
available.
config SMP_AP_WORK
bool
depends on SMP
help
Allow APs to do other work after initialisation instead of going
to sleep.
config MAX_CPUS
int "Maximum number of CPUs permitted"
depends on SMP
default 4
help
When using multi-CPU chips it is possible for U-Boot to start up
more than one CPU. The stack memory used by all of these CPUs is
pre-allocated so at present U-Boot wants to know the maximum
number of CPUs that may be present. Set this to at least as high
as the number of CPUs in your system (it uses about 4KB of RAM for
each CPU).
config AP_STACK_SIZE
hex
depends on SMP
default 0x1000
help
Each additional CPU started by U-Boot requires its own stack. This
option sets the stack size used by each CPU and directly affects
the memory used by this initialisation process. Typically 4KB is
enough space.
config CPU_INTEL_TURBO_NOT_PACKAGE_SCOPED
bool
help
This option indicates that the turbo mode setting is not package
scoped. i.e. turbo_enable() needs to be called on not just the
bootstrap processor (BSP).
config HAVE_VGA_BIOS
bool "Add a VGA BIOS image"
help
Select this option if you have a VGA BIOS image that you would
like to add to your ROM.
config VGA_BIOS_FILE
string "VGA BIOS image filename"
depends on HAVE_VGA_BIOS
default "vga.bin"
help
The filename of the VGA BIOS image in the board directory.
config VGA_BIOS_ADDR
hex "VGA BIOS image location"
depends on HAVE_VGA_BIOS
default 0xfff90000
help
The location of VGA BIOS image in the SPI flash. For example, base
address of 0xfff90000 indicates that the image will be put at offset
0x90000 from the beginning of a 1MB flash device.
config HAVE_VBT
bool "Add a Video BIOS Table (VBT) image"
depends on HAVE_FSP
help
Select this option if you have a Video BIOS Table (VBT) image that
you would like to add to your ROM. This is normally required if you
are using an Intel FSP firmware that is complaint with spec 1.1 or
later to initialize the integrated graphics device (IGD).
Video BIOS Table, or VBT, provides platform and board specific
configuration information to the driver that is not discoverable
or available through other means. By other means the most used
method here is to read EDID table from the attached monitor, over
Display Data Channel (DDC) using two pin I2C serial interface. VBT
configuration is related to display hardware and is available via
the ACPI OpRegion or, on older systems, in the PCI ROM (Option ROM).
config VBT_FILE
string "Video BIOS Table (VBT) image filename"
depends on HAVE_VBT
default "vbt.bin"
help
The filename of the file to use as Video BIOS Table (VBT) image
in the board directory.
config VBT_ADDR
hex "Video BIOS Table (VBT) image location"
depends on HAVE_VBT
default 0xfff90000
help
The location of Video BIOS Table (VBT) image in the SPI flash. For
example, base address of 0xfff90000 indicates that the image will
be put at offset 0x90000 from the beginning of a 1MB flash device.
config VIDEO_FSP
bool "Enable FSP framebuffer driver support"
depends on HAVE_VBT && VIDEO
help
Turn on this option to enable a framebuffer driver when U-Boot is
using Video BIOS Table (VBT) image for FSP firmware to initialize
the integrated graphics device.
config ROM_TABLE_ADDR
hex
default 0xf0000
help
All x86 tables happen to like the address range from 0x0f0000
to 0x100000. We use 0xf0000 as the starting address to store
those tables, including PIRQ routing table, Multi-Processor
table and ACPI table.
config ROM_TABLE_SIZE
hex
default 0x10000
config HAVE_ITSS
bool "Enable ITSS"
help
Select this to include the driver for the Interrupt Timer
Subsystem (ITSS) which is found on several Intel devices.
config HAVE_P2SB
bool "Enable P2SB"
depends on P2SB
help
Select this to include the driver for the Primary to
Sideband Bridge (P2SB) which is found on several Intel
devices.
menu "System tables"
depends on !EFI && !SYS_COREBOOT
config GENERATE_PIRQ_TABLE
bool "Generate a PIRQ table"
help
Generate a PIRQ routing table for this board. The PIRQ routing table
is generated by U-Boot in the system memory from 0xf0000 to 0xfffff
at every 16-byte boundary with a PCI IRQ routing signature ("$PIR").
It specifies the interrupt router information as well how all the PCI
devices' interrupt pins are wired to PIRQs.
config GENERATE_SFI_TABLE
bool "Generate a SFI (Simple Firmware Interface) table"
help
The Simple Firmware Interface (SFI) provides a lightweight method
for platform firmware to pass information to the operating system
via static tables in memory. Kernel SFI support is required to
boot on SFI-only platforms. If you have ACPI tables then these are
used instead.
U-Boot writes this table in write_sfi_table() just before booting
the OS.
For more information, see http://simplefirmware.org
config GENERATE_MP_TABLE
bool "Generate an MP (Multi-Processor) table"
help
Generate an MP (Multi-Processor) table for this board. The MP table
provides a way for the operating system to support for symmetric
multiprocessing as well as symmetric I/O interrupt handling with
the local APIC and I/O APIC.
config ACPI_GNVS_EXTERNAL
bool
help
Put the GNVS (Global Non-Volatile Sleeping) table separate from the
DSDT and add a pointer to the table from the DSDT. This allows
U-Boot to better control the address of the GNVS.
endmenu
config HAVE_ACPI_RESUME
bool "Enable ACPI S3 resume"
select ENABLE_MRC_CACHE
help
Select this to enable ACPI S3 resume. S3 is an ACPI-defined sleeping
state where all system context is lost except system memory. U-Boot
is responsible for restoring the machine state as it was before sleep.
It needs restore the memory controller, without overwriting memory
which is not marked as reserved. For the peripherals which lose their
registers, U-Boot needs to write the original value. When everything
is done, U-Boot needs to find out the wakeup vector provided by OSes
and jump there.
config S3_VGA_ROM_RUN
bool "Re-run VGA option ROMs on S3 resume"
depends on HAVE_ACPI_RESUME
help
Execute VGA option ROMs in U-Boot when resuming from S3. Normally
this is needed when graphics console is being used in the kernel.
Turning it off can reduce some resume time, but be aware that your
graphics console won't work without VGA options ROMs. Set it to N
if your kernel is only on a serial console.
config STACK_SIZE_RESUME
hex
depends on HAVE_ACPI_RESUME
default 0x1000
help
Estimated U-Boot's runtime stack size that needs to be reserved
during an ACPI S3 resume.
config MAX_PIRQ_LINKS
int
default 8
help
This variable specifies the number of PIRQ interrupt links which are
routable. On most older chipsets, this is 4, PIRQA through PIRQD.
Some newer chipsets offer more than four links, commonly up to PIRQH.
config IRQ_SLOT_COUNT
int
default 128
help
U-Boot can support up to 254 IRQ slot info in the PIRQ routing table
which in turns forms a table of exact 4KiB. The default value 128
should be enough for most boards. If this does not fit your board,
change it according to your needs.
config PCIE_ECAM_BASE
hex
default 0xe0000000
help
This is the memory-mapped address of PCI configuration space, which
is only available through the Enhanced Configuration Access
Mechanism (ECAM) with PCI Express. It can be set up almost
anywhere. Before it is set up, it is possible to access PCI
configuration space through I/O access, but memory access is more
convenient. Using this, PCI can be scanned and configured. This
should be set to a region that does not conflict with memory
assigned to PCI devices - i.e. the memory and prefetch regions, as
passed to pci_set_region().
config PCIE_ECAM_SIZE
hex
default 0x10000000
help
This is the size of memory-mapped address of PCI configuration space,
which is only available through the Enhanced Configuration Access
Mechanism (ECAM) with PCI Express. Each bus consumes 1 MiB memory,
so a default 0x10000000 size covers all of the 256 buses which is the
maximum number of PCI buses as defined by the PCI specification.
config I8259_PIC
bool "Enable Intel 8259 compatible interrupt controller"
default y
help
Intel 8259 ISA compatible chipset incorporates two 8259 (master and
slave) interrupt controllers. Include this to have U-Boot set up
the interrupt correctly.
config APIC
bool "Enable Intel Advanced Programmable Interrupt Controller"
default y
help
The (A)dvanced (P)rogrammable (I)nterrupt (C)ontroller is responsible
for catching interrupts and distributing them to one or more CPU
cores. In most cases there are some LAPICs (local) for each core and
one I/O APIC. This conjunction is found on most modern x86 systems.
config PINCTRL_ICH6
bool
help
Intel ICH6 compatible chipset pinctrl driver. It needs to work
together with the ICH6 compatible gpio driver.
config I8254_TIMER
bool
default y
help
Intel 8254 timer contains three counters which have fixed uses.
Include this to have U-Boot set up the timer correctly.
config SEABIOS
bool "Support booting SeaBIOS"
help
SeaBIOS is an open source implementation of a 16-bit X86 BIOS.
It can run in an emulator or natively on X86 hardware with the use
of coreboot/U-Boot. By turning on this option, U-Boot prepares
all the configuration tables that are necessary to boot SeaBIOS.
Check http://www.seabios.org/SeaBIOS for details.
config HIGH_TABLE_SIZE
hex "Size of configuration tables which reside in high memory"
default 0x10000
depends on SEABIOS
help
SeaBIOS itself resides in E seg and F seg, where U-Boot puts all
configuration tables like PIRQ/MP/ACPI. To avoid conflicts, U-Boot
puts a copy of configuration tables in high memory region which
is reserved on the stack before relocation. The region size is
determined by this option.
Increse it if the default size does not fit the board's needs.
This is most likely due to a large ACPI DSDT table is used.
config INTEL_CAR_CQOS
bool "Support Intel Cache Quality of Service"
help
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.
#
# Each bit in QOS mask controls this many bytes. This is calculated as:
# (CACHE_WAYS / CACHE_BITS_PER_MASK) * CACHE_LINE_SIZE * CACHE_SETS
#
config CACHE_QOS_SIZE_PER_BIT
hex
depends on INTEL_CAR_CQOS
default 0x20000 # 128 KB
config X86_OFFSET_U_BOOT
hex "Offset of U-Boot in ROM image"
depends on HAVE_TEXT_BASE
default TEXT_BASE
config X86_OFFSET_SPL
hex "Offset of SPL in ROM image"
depends on SPL && X86
default SPL_TEXT_BASE
config ACPI_GPE
bool "Support ACPI general-purpose events"
help
Enable a driver for ACPI GPEs to allow peripherals to send interrupts
via ACPI to the OS. In U-Boot this is only used when U-Boot itself
needs access to these interrupts. This can happen when it uses a
peripheral that is set up to use GPEs and so cannot use the normal
GPIO mechanism for polling an input.
See https://queue.acm.org/blogposting.cfm?id=18977 for more info
config SPL_ACPI_GPE
bool "Support ACPI general-purpose events in SPL"
depends on SPL
help
Enable a driver for ACPI GPEs to allow peripherals to send interrupts
via ACPI to the OS. In U-Boot this is only used when U-Boot itself
needs access to these interrupts. This can happen when it uses a
peripheral that is set up to use GPEs and so cannot use the normal
GPIO mechanism for polling an input.
See https://queue.acm.org/blogposting.cfm?id=18977 for more info
config TPL_ACPI_GPE
bool "Support ACPI general-purpose events in TPL"
depends on TPL
help
Enable a driver for ACPI GPEs to allow peripherals to send interrupts
via ACPI to the OS. In U-Boot this is only used when U-Boot itself
needs access to these interrupts. This can happen when it uses a
peripheral that is set up to use GPEs and so cannot use the normal
GPIO mechanism for polling an input.
See https://queue.acm.org/blogposting.cfm?id=18977 for more info
config SA_PCIEX_LENGTH
hex
default 0x10000000 if (PCIEX_LENGTH_256MB)
default 0x8000000 if (PCIEX_LENGTH_128MB)
default 0x4000000 if (PCIEX_LENGTH_64MB)
default 0x10000000
help
This option allows you to select length of PCIEX region.
config PCIEX_LENGTH_256MB
bool
config PCIEX_LENGTH_128MB
bool
config PCIEX_LENGTH_64MB
bool
config INTEL_SOC
bool
help
This is enabled on Intel SoCs that can support various advanced
features such as power management (requiring asm/arch/pm.h), system
agent (asm/arch/systemagent.h) and an I/O map for ACPI
(asm/arch/iomap.h).
This cannot be selected in a defconfig file. It must be enabled by a
'select' in the SoC's Kconfig.
if INTEL_SOC
config INTEL_ACPIGEN
bool "Support ACPI table generation for Intel SoCs"
depends on ACPIGEN
help
This option adds some functions used for programmatic generation of
ACPI tables on Intel SoCs. This provides features for writing CPU
information such as P states and T stages. Also included is a way
to create a GNVS table and set it up.
config INTEL_GMA_ACPI
bool "Generate ACPI table for Intel GMA graphics"
help
The Intel GMA graphics driver in Linux expects an ACPI table
which describes the layout of the registers and the display
connected to the device. Enable this option to create this
table so that graphics works correctly.
config INTEL_GENERIC_WIFI
bool "Enable generation of ACPI tables for Intel WiFi"
help
Select this option to provide code to a build generic WiFi ACPI table
for Intel WiFi devices. This is not a WiFi driver and offers no
network functionality. It is only here to generate the ACPI tables
required by Linux.
config INTEL_GMA_SWSMISCI
bool
help
Select this option for Atom-based platforms which use the SWSMISCI
register (0xe0) rather than the SWSCI register (0xe8).
endif # INTEL_SOC
config COREBOOT_SYSINFO
bool "Support reading coreboot sysinfo"
default y if SYS_COREBOOT
help
Select this option to read the coreboot sysinfo table on start-up,
if present. This is written by coreboot before it exits and provides
various pieces of information about the running system, including
display, memory and build information. It is stored in
struct sysinfo_t after parsing by get_coreboot_info().
config SPL_COREBOOT_SYSINFO
bool "Support reading coreboot sysinfo"
depends on SPL
default y if COREBOOT_SYSINFO
help
Select this option to read the coreboot sysinfo table in SPL,
if present. This is written by coreboot before it exits and provides
various pieces of information about the running system, including
display, memory and build information. It is stored in
struct sysinfo_t after parsing by get_coreboot_info().
endmenu
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