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|
## SPDX-License-Identifier: GPL-2.0-only
menu "Devices"
config HAVE_VGA_TEXT_FRAMEBUFFER
bool
depends on !(NO_GFX_INIT && NO_EARLY_GFX_INIT)
help
Selected by graphics drivers that support legacy VGA text mode.
config HAVE_VBE_LINEAR_FRAMEBUFFER
bool
depends on !NO_GFX_INIT
help
Selected by graphics drivers that can set up a VBE linear-framebuffer
mode.
config HAVE_LINEAR_FRAMEBUFFER
bool
depends on !NO_GFX_INIT
help
Selected by graphics drivers that can set up a generic linear
framebuffer.
config HAVE_FSP_GOP
bool
help
Selected by drivers that support to run a blob that implements
the Graphics Output Protocol (GOP).
config MAINBOARD_NO_FSP_GOP
bool
help
Selected by mainboards that do not have any graphics ports connected to the SoC.
config MAINBOARD_HAS_NATIVE_VGA_INIT
def_bool n
help
Selected by mainboards / drivers that provide native graphics
init within coreboot.
config MAINBOARD_FORCE_NATIVE_VGA_INIT
def_bool n
depends on MAINBOARD_HAS_NATIVE_VGA_INIT || MAINBOARD_HAS_LIBGFXINIT
help
Selected by mainboards / chipsets whose graphics driver can't or
shouldn't be disabled.
config VGA_ROM_RUN_DEFAULT
def_bool n
help
Selected by mainboards whose graphics initialization depends on VGA OpROM.
coreboot needs to load/execute legacy VGA OpROM in order to initialize GFX.
config MAINBOARD_HAS_LIBGFXINIT
def_bool n
help
Selected by mainboards that implement support for `libgfxinit`.
Usually this requires a list of ports to be probed for displays.
config MAINBOARD_HAS_EARLY_LIBGFXINIT
def_bool n
help
Selected by mainboards that implement early (cache-as-ram
stage) support of `libgfxinit`. Usually this requires a list
of ports to be probed for displays.
choice
prompt "Graphics initialization"
default NO_GFX_INIT if VGA_ROM_RUN_DEFAULT && PAYLOAD_SEABIOS
default VGA_ROM_RUN if VGA_ROM_RUN_DEFAULT
default MAINBOARD_DO_NATIVE_VGA_INIT
default MAINBOARD_USE_LIBGFXINIT
default RUN_FSP_GOP if INTEL_GMA_HAVE_VBT
config MAINBOARD_DO_NATIVE_VGA_INIT
bool "Use native graphics init"
depends on MAINBOARD_HAS_NATIVE_VGA_INIT
help
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.
config MAINBOARD_USE_LIBGFXINIT
bool "Use libgfxinit"
depends on MAINBOARD_HAS_LIBGFXINIT
select HAVE_VGA_TEXT_FRAMEBUFFER
select HAVE_LINEAR_FRAMEBUFFER
select VGA if VGA_TEXT_FRAMEBUFFER
help
Use the SPARK library `libgfxinit` for the native graphics
initialization. This requires an Ada toolchain.
# TODO: Explain differences (if any) for onboard cards.
config VGA_ROM_RUN
bool "Run VGA Option ROMs"
depends on PCI && (ARCH_X86 || ARCH_PPC64) && !MAINBOARD_FORCE_NATIVE_VGA_INIT
select HAVE_VGA_TEXT_FRAMEBUFFER
help
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.
config RUN_FSP_GOP
bool "Run a GOP driver"
depends on HAVE_FSP_GOP && !MAINBOARD_NO_FSP_GOP
select HAVE_LINEAR_FRAMEBUFFER
help
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.
config NO_GFX_INIT
bool "None"
depends on !MAINBOARD_FORCE_NATIVE_VGA_INIT
help
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.
endchoice
choice
prompt "Early (romstage) graphics initialization"
default MAINBOARD_USE_EARLY_LIBGFXINIT if MAINBOARD_HAS_EARLY_LIBGFXINIT
default NO_EARLY_GFX_INIT
config NO_EARLY_GFX_INIT
bool "None"
help
Select this to not perform any graphics initialization at
romstage.
config MAINBOARD_USE_EARLY_LIBGFXINIT
bool "Use libgfxinit"
depends on MAINBOARD_HAS_EARLY_LIBGFXINIT
select ROMSTAGE_VGA
help
Use the SPARK library `libgfxinit` for the romstage native
graphics initialization. This requires an Ada
toolchain. Graphics at romstage is limited to VGA text mode.
endchoice
config PRE_GRAPHICS_DELAY_MS
int "Graphics initialization delay in ms"
default 0
depends on VGA_ROM_RUN
help
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.
config ONBOARD_VGA_IS_PRIMARY
bool "Use onboard VGA as primary video device"
default n
depends on PCI
help
This option lets you select which VGA device will be used
to decode legacy VGA cycles. Not all chipsets implement this
however. If not selected, the last adapter found will be used,
else the onboard adapter is used.
config S3_VGA_ROM_RUN
bool "Re-run VGA Option ROMs on S3 resume"
default y
depends on VGA_ROM_RUN && HAVE_ACPI_RESUME
help
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.
config ALWAYS_LOAD_OPROM
def_bool n
depends on VGA_ROM_RUN
help
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.
config ALWAYS_RUN_OPROM
def_bool n
depends on VGA_ROM_RUN && ALWAYS_LOAD_OPROM
help
Always unconditionally run the option regardless of other
policies.
config ON_DEVICE_ROM_LOAD
bool "Load Option ROMs on PCI devices"
default n if PAYLOAD_SEABIOS
default y if !PAYLOAD_SEABIOS
depends on VGA_ROM_RUN
help
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.
choice
prompt "Option ROM execution type"
default PCI_OPTION_ROM_RUN_YABEL if !ARCH_X86
default PCI_OPTION_ROM_RUN_REALMODE if ARCH_X86
depends on VGA_ROM_RUN
config PCI_OPTION_ROM_RUN_REALMODE
prompt "Native mode"
bool
depends on ARCH_X86 && !ARCH_RAMSTAGE_X86_64
help
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)
config PCI_OPTION_ROM_RUN_YABEL
prompt "Secure mode"
bool
help
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.
endchoice
config YABEL_PCI_ACCESS_OTHER_DEVICES
prompt "Allow Option ROMs to access other devices"
bool
depends on PCI_OPTION_ROM_RUN_YABEL
help
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.
config YABEL_PCI_FAKE_WRITING_OTHER_DEVICES_CONFIG
prompt "Fake success on writing other device's config space"
bool
depends on YABEL_PCI_ACCESS_OTHER_DEVICES
help
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.
config YABEL_VIRTMEM_LOCATION
prompt "Location of YABEL's virtual memory"
hex
depends on PCI_OPTION_ROM_RUN_YABEL
default 0x1000000
help
YABEL requires 1MB memory for its CPU emulation. This memory is
normally located at 16MB.
config YABEL_DIRECTHW
prompt "Direct hardware access"
bool
depends on PCI_OPTION_ROM_RUN_YABEL && ARCH_X86
help
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.
menu "Display"
depends on HAVE_VGA_TEXT_FRAMEBUFFER || HAVE_LINEAR_FRAMEBUFFER
config FRAMEBUFFER_SET_VESA_MODE
prompt "Set framebuffer graphics resolution"
bool
default y if CHROMEOS
depends on PCI_OPTION_ROM_RUN_YABEL || PCI_OPTION_ROM_RUN_REALMODE
select HAVE_VBE_LINEAR_FRAMEBUFFER
help
Set VESA/native framebuffer mode (needed for bootsplash and graphical framebuffer console)
if FRAMEBUFFER_SET_VESA_MODE
choice
prompt "framebuffer graphics resolution"
default FRAMEBUFFER_VESA_MODE_118
help
This option sets the resolution used for the coreboot framebuffer (and
bootsplash screen).
config FRAMEBUFFER_VESA_MODE_100
bool "640x400 256-color"
config FRAMEBUFFER_VESA_MODE_101
bool "640x480 256-color"
config FRAMEBUFFER_VESA_MODE_102
bool "800x600 16-color"
config FRAMEBUFFER_VESA_MODE_103
bool "800x600 256-color"
config FRAMEBUFFER_VESA_MODE_104
bool "1024x768 16-color"
config FRAMEBUFFER_VESA_MODE_105
bool "1024x768 256-color"
config FRAMEBUFFER_VESA_MODE_106
bool "1280x1024 16-color"
config FRAMEBUFFER_VESA_MODE_107
bool "1280x1024 256-color"
config FRAMEBUFFER_VESA_MODE_108
bool "80x60 text"
config FRAMEBUFFER_VESA_MODE_109
bool "132x25 text"
config FRAMEBUFFER_VESA_MODE_10A
bool "132x43 text"
config FRAMEBUFFER_VESA_MODE_10B
bool "132x50 text"
config FRAMEBUFFER_VESA_MODE_10C
bool "132x60 text"
config FRAMEBUFFER_VESA_MODE_10D
bool "320x200 32k-color (1:5:5:5)"
config FRAMEBUFFER_VESA_MODE_10E
bool "320x200 64k-color (5:6:5)"
config FRAMEBUFFER_VESA_MODE_10F
bool "320x200 16.8M-color (8:8:8)"
config FRAMEBUFFER_VESA_MODE_110
bool "640x480 32k-color (1:5:5:5)"
config FRAMEBUFFER_VESA_MODE_111
bool "640x480 64k-color (5:6:5)"
config FRAMEBUFFER_VESA_MODE_112
bool "640x480 16.8M-color (8:8:8)"
config FRAMEBUFFER_VESA_MODE_113
bool "800x600 32k-color (1:5:5:5)"
config FRAMEBUFFER_VESA_MODE_114
bool "800x600 64k-color (5:6:5)"
config FRAMEBUFFER_VESA_MODE_115
bool "800x600 16.8M-color (8:8:8)"
config FRAMEBUFFER_VESA_MODE_116
bool "1024x768 32k-color (1:5:5:5)"
config FRAMEBUFFER_VESA_MODE_117
bool "1024x768 64k-color (5:6:5)"
config FRAMEBUFFER_VESA_MODE_118
bool "1024x768 16.8M-color (8:8:8)"
config FRAMEBUFFER_VESA_MODE_119
bool "1280x1024 32k-color (1:5:5:5)"
config FRAMEBUFFER_VESA_MODE_11A
bool "1280x1024 64k-color (5:6:5)"
config FRAMEBUFFER_VESA_MODE_11B
bool "1280x1024 16.8M-color (8:8:8)"
config FRAMEBUFFER_VESA_MODE_USER
bool "Manually select VESA mode"
endchoice
# Map the config names to an integer (KB).
config FRAMEBUFFER_VESA_MODE
prompt "VESA mode" if FRAMEBUFFER_VESA_MODE_USER
hex
default 0x100 if FRAMEBUFFER_VESA_MODE_100
default 0x101 if FRAMEBUFFER_VESA_MODE_101
default 0x102 if FRAMEBUFFER_VESA_MODE_102
default 0x103 if FRAMEBUFFER_VESA_MODE_103
default 0x104 if FRAMEBUFFER_VESA_MODE_104
default 0x105 if FRAMEBUFFER_VESA_MODE_105
default 0x106 if FRAMEBUFFER_VESA_MODE_106
default 0x107 if FRAMEBUFFER_VESA_MODE_107
default 0x108 if FRAMEBUFFER_VESA_MODE_108
default 0x109 if FRAMEBUFFER_VESA_MODE_109
default 0x10A if FRAMEBUFFER_VESA_MODE_10A
default 0x10B if FRAMEBUFFER_VESA_MODE_10B
default 0x10C if FRAMEBUFFER_VESA_MODE_10C
default 0x10D if FRAMEBUFFER_VESA_MODE_10D
default 0x10E if FRAMEBUFFER_VESA_MODE_10E
default 0x10F if FRAMEBUFFER_VESA_MODE_10F
default 0x110 if FRAMEBUFFER_VESA_MODE_110
default 0x111 if FRAMEBUFFER_VESA_MODE_111
default 0x112 if FRAMEBUFFER_VESA_MODE_112
default 0x113 if FRAMEBUFFER_VESA_MODE_113
default 0x114 if FRAMEBUFFER_VESA_MODE_114
default 0x115 if FRAMEBUFFER_VESA_MODE_115
default 0x116 if FRAMEBUFFER_VESA_MODE_116
default 0x117 if FRAMEBUFFER_VESA_MODE_117
default 0x118 if FRAMEBUFFER_VESA_MODE_118
default 0x119 if FRAMEBUFFER_VESA_MODE_119
default 0x11A if FRAMEBUFFER_VESA_MODE_11A
default 0x11B if FRAMEBUFFER_VESA_MODE_11B
default 0x118 if FRAMEBUFFER_VESA_MODE_USER
endif # FRAMEBUFFER_SET_VESA_MODE
config WANT_LINEAR_FRAMEBUFFER
bool
default y if CHROMEOS
default y if PAYLOAD_EDK2
default y if COREDOOM_SECONDARY_PAYLOAD
choice
prompt "Framebuffer mode"
default VBE_LINEAR_FRAMEBUFFER if HAVE_VBE_LINEAR_FRAMEBUFFER && WANT_LINEAR_FRAMEBUFFER
default GENERIC_LINEAR_FRAMEBUFFER if HAVE_LINEAR_FRAMEBUFFER && WANT_LINEAR_FRAMEBUFFER
default VGA_TEXT_FRAMEBUFFER
config VGA_TEXT_FRAMEBUFFER
bool "Legacy VGA text mode"
depends on HAVE_VGA_TEXT_FRAMEBUFFER
help
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.
config VBE_LINEAR_FRAMEBUFFER
bool "VESA framebuffer"
depends on HAVE_VBE_LINEAR_FRAMEBUFFER
help
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.
config GENERIC_LINEAR_FRAMEBUFFER
bool "Linear \"high-resolution\" framebuffer"
depends on HAVE_LINEAR_FRAMEBUFFER
help
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.
endchoice
# Workaround to have LINEAR_FRAMEBUFFER set in both cases
# VBE_LINEAR_FRAMEBUFFER and GENERIC_LINEAR_FRAMEBUFFER.
# `kconfig_lint` doesn't let us use the same name with
# different texts in the choice above.
config LINEAR_FRAMEBUFFER
def_bool y
depends on VBE_LINEAR_FRAMEBUFFER || GENERIC_LINEAR_FRAMEBUFFER
config BOOTSPLASH
prompt "Show graphical bootsplash"
bool
depends on LINEAR_FRAMEBUFFER
help
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.
config LINEAR_FRAMEBUFFER_MAX_WIDTH
int "Maximum width in pixels"
depends on LINEAR_FRAMEBUFFER && MAINBOARD_USE_LIBGFXINIT
default 2560 if SYSTEM_TYPE_LAPTOP
default 3840
help
Set the maximum width of the framebuffer. This may help with
default fonts too tiny for high-resolution displays.
config LINEAR_FRAMEBUFFER_MAX_HEIGHT
int "Maximum height in pixels"
depends on LINEAR_FRAMEBUFFER && MAINBOARD_USE_LIBGFXINIT
default 1600 if SYSTEM_TYPE_LAPTOP
default 2160
help
Set the maximum height of the framebuffer. This may help with
default fonts too tiny for high-resolution displays.
endmenu # "Display"
config PCI
bool
default n
config PCI_IOBASE
hex
help
The memory address of a memory-mapped translator that lets the
CPU communicate with peripheral devices over PCI I/O space.
if PCI
config DOMAIN_RESOURCE_32BIT_LIMIT
hex
default 0xfe000000
help
When the default pci_domain_read_resources() is used,
keep 32-bit memory resources below this limit. This is
used as a workaround for missing/wrong reservations of
chipset resources that usually reside above this limit.
config NO_ECAM_MMCONF_SUPPORT
bool
default n
help
Disable the use of the Enhanced Configuration
Access mechanism (ECAM) method for accessing PCI config
address space.
config ECAM_MMCONF_SUPPORT
bool
default !NO_ECAM_MMCONF_SUPPORT
help
Enable the use of the Enhanced Configuration
Access mechanism (ECAM) method for accessing PCI config
address space.
config PCIX_PLUGIN_SUPPORT
bool
default y
config CARDBUS_PLUGIN_SUPPORT
bool
default y
config AZALIA_HDA_CODEC_SUPPORT
bool
default n
help
Select this option to include the code to initialize Azalia HD audio
codec chips. This will also add the hda_verb.c file from the
mainboard directory to the build which contain the board-specific HD
audio codec configuration.
config PCIEXP_PLUGIN_SUPPORT
bool
default y
config ECAM_MMCONF_BASE_ADDRESS
hex
depends on ECAM_MMCONF_SUPPORT
config ECAM_MMCONF_BUS_NUMBER
int
depends on ECAM_MMCONF_SUPPORT
help
Total number of PCI buses in the system across all segment groups.
The number needs to be a power of 2. For values <= 256,
PCI_BUSES_PER_SEGMENT_GROUP is CONFIG_ECAM_MMCONF_BUS_NUMBER and
PCI_SEGMENT_GROUP_COUNT is 1. For values > 256,
PCI_BUSES_PER_SEGMENT_GROUP is 256 and PCI_SEGMENT_GROUP_COUNT is
CONFIG_ECAM_MMCONF_BUS_NUMBER / 256.
config ECAM_MMCONF_LENGTH
hex
depends on ECAM_MMCONF_SUPPORT
default 0x02000000 if ECAM_MMCONF_BUS_NUMBER = 32
default 0x04000000 if ECAM_MMCONF_BUS_NUMBER = 64
default 0x08000000 if ECAM_MMCONF_BUS_NUMBER = 128
default 0x10000000 if ECAM_MMCONF_BUS_NUMBER = 256
default 0x20000000 if ECAM_MMCONF_BUS_NUMBER = 512
default 0x80000000 if ECAM_MMCONF_BUS_NUMBER = 1024
default 0x0
config PCI_ALLOW_BUS_MASTER
bool "Allow coreboot to set optional PCI bus master bits"
default y
help
For security reasons, bus mastering should be enabled as late as
possible. In coreboot, it's usually not necessary and payloads
should only enable it for devices they use. Since not all payloads
enable bus mastering properly yet, this option gives some sort of
"backwards compatibility" and is enabled by default to keep the
traditional behaviour for now. This is currently necessary, for
instance, for libpayload based payloads as the drivers don't enable
bus mastering for PCI bridges.
if PCI_ALLOW_BUS_MASTER
config PCI_SET_BUS_MASTER_PCI_BRIDGES
bool "PCI bridges"
default y
help
Let coreboot configure bus mastering for PCI bridges. Enabling bus
mastering for a PCI bridge also allows it to forward requests from
downstream devices. Currently, payloads ignore this and only enable
bus mastering for the downstream device. Hence, this option is needed
for compatibility until payloads are fixed.
config PCI_ALLOW_BUS_MASTER_ANY_DEVICE
bool "Any devices"
default y
select PCI_SET_BUS_MASTER_PCI_BRIDGES
help
Allow coreboot to enable PCI bus mastering for any device. The actual
selection of devices depends on the various PCI drivers in coreboot.
endif # PCI_ALLOW_BUS_MASTER
endif # PCI
if PCIEXP_PLUGIN_SUPPORT
config PCIEXP_COMMON_CLOCK
prompt "Enable PCIe Common Clock"
bool
default n
help
Detect and enable Common Clock on PCIe links.
config PCIEXP_ASPM
prompt "Enable PCIe ASPM"
bool
default n
help
Detect and enable ASPM (Active State Power Management) on PCIe links.
config PCIEXP_CLK_PM
prompt "Enable PCIe Clock Power Management"
bool
default n
help
Detect and enable Clock Power Management on PCIe.
config PCIEXP_L1_SUB_STATE
prompt "Enable PCIe ASPM L1 SubState"
bool
depends on (ECAM_MMCONF_SUPPORT || PCI_IO_CFG_EXT)
default n
help
Detect and enable ASPM on PCIe links.
config PCIEXP_SUPPORT_RESIZABLE_BARS
prompt "Support PCIe Resizable BARs"
bool
depends on (ECAM_MMCONF_SUPPORT || PCI_IO_CFG_EXT)
default n
help
When enabled, this will check PCIe devices for Resizable BAR support,
and if found, will use this to discover the preferred BAR sizes of
the device in preference over the traditional moving bits method. The
amount of address space given out to devices in this manner (since
it can range up to 8 EB) can be limited with the
PCIEXP_DEFAULT_MAX_RESIZABLE_BAR_BITS Kconfig setting below.
if PCIEXP_SUPPORT_RESIZABLE_BARS
config PCIEXP_DEFAULT_MAX_RESIZABLE_BAR_BITS
int "Bits of address space to give to Resizable BARs"
range 20 63 # 1 MiB - 8 EiB
default 29 # 512 MiB
help
This is the maximum number of bits of address space to allocate for
PCIe devices with resizable BARs. For instance, if a device requests
30 bits of address space (1 GiB), but this field is set to 29, then
the device will only be allocated 29 bits worth of address space (512
MiB). Valid values range from 20 (1 MiB) to 63 (8 EiB); these come
from the Resizable BAR portion of the PCIe spec (7.8.6).
endif # PCIEXP_SUPPORT_RESIZABLE_BARS
config PCIEXP_LANE_ERR_STAT_CLEAR
prompt "Enable Clear PCIe Lane Error Status"
bool
default n
help
Clear the PCIe Lane Error Status at the end of link training.
config PCIEXP_HOTPLUG
prompt "Enable PCIe Hotplug Support"
bool
default n
help
Allocate resources for PCIe hotplug bridges
if PCIEXP_HOTPLUG
config PCIEXP_HOTPLUG_BUSES
int "PCI Express Hotplug Buses"
default 8
help
This is the number of buses allocated for hotplug PCI express
bridges, for use by hotplugged child devices. The default is 8
buses.
config PCIEXP_HOTPLUG_MEM
hex "PCI Express Hotplug Memory"
default 0x800000
help
This is the amount of memory space, in bytes, to allocate to
hotplug PCI express bridges, for use by hotplugged child devices.
This size should be page-aligned. The default is 8 MiB.
config PCIEXP_HOTPLUG_PREFETCH_MEM
hex "PCI Express Hotplug Prefetch Memory"
default 0x10000000
help
This is the amount of pre-fetchable memory space, in bytes, to
allocate to hot-plug PCI express bridges, for use by hotplugged
child devices. This size should be page-aligned. The default is
256 MiB.
config PCIEXP_HOTPLUG_PREFETCH_MEM_ABOVE_4G
bool
default y if !PCIEXP_HOTPLUG_PREFETCH_MEM_BELOW_4G
default n
help
This enables prefetch memory allocation above 4G boundary for the
hotplug resources.
config PCIEXP_HOTPLUG_PREFETCH_MEM_BELOW_4G
bool "PCI Express Hotplug Prefetch Memory Allocation below 4G boundary"
default n
help
This enables prefetch memory allocation below 4G boundary for the
hotplug resources.
config PCIEXP_HOTPLUG_IO
hex "PCI Express Hotplug I/O Space"
default 0x800
help
This is the amount of I/O space to allocate to hot-plug PCI
express bridges, for use by hotplugged child devices. The default
is 2 KiB.
endif # PCIEXP_HOTPLUG
endif # PCIEXP_PLUGIN_SUPPORT
config EARLY_PCI_BRIDGE
bool "Early PCI bridge"
depends on PCI
default n
help
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.
if EARLY_PCI_BRIDGE
config EARLY_PCI_BRIDGE_DEVICE
hex "bridge device"
default 0x0
config EARLY_PCI_BRIDGE_FUNCTION
hex "bridge function"
default 0x0
config EARLY_PCI_MMIO_BASE
hex "MMIO window base"
default 0x0
endif # EARLY_PCI_BRIDGE
config SUBSYSTEM_VENDOR_ID
hex "Override PCI Subsystem Vendor ID"
depends on PCI
default 0x0000
help
This config option will override the devicetree settings for
PCI Subsystem Vendor ID.
Note: This option is not meant for a board's Kconfig; use the
devicetree setting `subsystemid` instead.
config SUBSYSTEM_DEVICE_ID
hex "Override PCI Subsystem Device ID"
depends on PCI
default 0x0000
help
This config option will override the devicetree settings for
PCI Subsystem Device ID.
Note: This option is not meant for a board's Kconfig; use the
devicetree setting `subsystemid` instead.
config VGA_BIOS
bool "Add a VGA BIOS image"
depends on ARCH_X86
select VGA_ROM_RUN_DEFAULT
help
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.
config VGA_BIOS_FILE
string "VGA BIOS path and filename"
depends on VGA_BIOS
default "vgabios.bin"
help
The path and filename of the file to use as VGA BIOS.
config VGA_BIOS_ID
string "VGA device PCI IDs"
depends on VGA_BIOS
default "1106,3230"
help
The comma-separated PCI vendor and device ID that would associate
your vBIOS 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).
This ID needs to match the PCI VID and DID in the VGA BIOS file's
header and also needs to match the value returned by map_oprom_vendev
if the remapping feature is used.
Under GNU/Linux you can run `lspci -nn` to list the IDs of your PCI devices.
config VGA_BIOS_SECOND
bool "Add a 2nd video BIOS image"
depends on ARCH_X86 && VGA_BIOS
help
Select this option if you have a 2nd video BIOS image that you would
like to add to your ROM.
config VGA_BIOS_SECOND_FILE
string "2nd video BIOS path and filename"
depends on VGA_BIOS_SECOND
default "vbios2.bin"
help
The path and filename of the file to use as video BIOS.
config VGA_BIOS_SECOND_ID
string "Graphics device PCI IDs"
depends on VGA_BIOS_SECOND
help
The comma-separated PCI vendor and device ID that would associate
your vBIOS 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.
config VGA_BIOS_DGPU
bool "Add a discrete VGA BIOS image"
depends on VGA_BIOS
help
Select this option if you have a VGA BIOS image for discrete GPU
that you would like to add to your ROM.
You will be able to specify the location and file name of the
image later.
config VGA_BIOS_DGPU_FILE
string "Discrete VGA BIOS path and filename"
depends on VGA_BIOS_DGPU
default "vgabios_dgpu.bin"
help
The path and filename of the file to use as VGA BIOS for discrete GPU.
config VGA_BIOS_DGPU_ID
string "Discrete VGA device PCI IDs"
depends on VGA_BIOS_DGPU
default "1002,6663"
help
The comma-separated PCI vendor and device ID that would associate
your VGA BIOS to your discrete video card.
Examples:
1002,6663 for HD 8570M
1002,6665 for R5 M230
In the above examples 1002 is the PCI vendor ID (in hex, but without
the "0x" prefix) and 6663 / 6665 specifies the PCI device ID of the
discrete video card (also in hex, without "0x" prefix).
Under GNU/Linux you can run `lspci -nn` to list the IDs of your PCI devices.
config INTEL_GMA_HAVE_VBT
bool
help
Select this in the mainboard Kconfig to indicate the board has
a data.vbt file.
config INTEL_GMA_ADD_VBT
depends on SOC_INTEL_COMMON || CPU_INTEL_COMMON
bool "Add a Video BIOS Table (VBT) binary to CBFS"
default y if INTEL_GMA_HAVE_VBT
help
Add a VBT data file to CBFS. The VBT describes the integrated
GPU and connections, and is needed by the GOP driver integrated into
FSP and the OS driver in order to initialize the display.
config INTEL_GMA_VBT_FILE
string "VBT binary path and filename"
depends on INTEL_GMA_ADD_VBT
default "src/mainboard/\$(MAINBOARDDIR)/variants/\$(VARIANT_DIR)/data.vbt" \
if INTEL_GMA_HAVE_VBT && VARIANT_DIR != ""
default "src/mainboard/\$(MAINBOARDDIR)/data.vbt" if INTEL_GMA_HAVE_VBT
default "3rdparty/blobs/mainboard/\$(MAINBOARDDIR)/vbt.bin"
help
The path and filename of the VBT binary.
config SOFTWARE_I2C
bool "Enable I2C controller emulation in software"
default n
help
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.
config I2C_TRANSFER_TIMEOUT_US
int "I2C transfer timeout in microseconds"
default 500000
help
Timeout for a read/write transfers on the I2C bus, that is, the
maximum time a device could stretch clock bits before the transfer
is aborted and an error returned.
config RESOURCE_ALLOCATION_TOP_DOWN
bool "Allocate resources from top down"
default n if PAYLOAD_EDK2
default y
help
Top-down allocation is required to place resources above 4G by
default (i.e. even when there is still space below). On some
platforms, it might make a difference because of conflicts with
undeclared resources. EDK2 is currently reported to also have
problems on some platforms, at least with Intel's IGD.
config ALWAYS_ALLOW_ABOVE_4G_ALLOCATION
bool
default n if ARCH_X86
default y
help
Don't limit mem resources to 4G, but to their actual limit.
config XHCI_UTILS
def_bool n
help
Provides xHCI utility functions.
config D3COLD_SUPPORT
bool
default y
help
Enable this option if all devices on your system support the
D3Cold power management state. The D3Cold state is a low-power
state where the device has been powered down and is no longer
able to maintain its context. This state can help reduce
overall system power consumption, which can be beneficial for
energy savings and thermal management.
Please note that enabling D3Cold support may break system
suspend-to-RAM (S3) functionality.
source "src/device/dram/Kconfig"
endmenu
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