u-boot/lib/efi_loader/Kconfig

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config EFI_LOADER
bool "Support running UEFI applications"
depends on OF_LIBFDT && ( \
ARM && (SYS_CPU = arm1136 || \
SYS_CPU = arm1176 || \
SYS_CPU = armv7 || \
SYS_CPU = armv8) || \
X86 || RISCV || SANDBOX)
# We need EFI_STUB_64BIT to be set on x86_64 with EFI_STUB
depends on !EFI_STUB || !X86_64 || EFI_STUB_64BIT
# We need EFI_STUB_32BIT to be set on x86_32 with EFI_STUB
depends on !EFI_STUB || !X86 || X86_64 || EFI_STUB_32BIT
depends on BLK
depends on !EFI_APP
default y if !ARM || SYS_CPU = armv7 || SYS_CPU = armv8
select CHARSET
# We need to send DM events, dynamically, in the EFI block driver
select DM_EVENT
select EVENT_DYNAMIC
select LIB_UUID
imply PARTITION_UUIDS
select REGEX
imply FAT
imply FAT_WRITE
imply USB_KEYBOARD_FN_KEYS
imply VIDEO_ANSI
help
Select this option if you want to run UEFI applications (like GNU
GRUB or iPXE) on top of U-Boot. If this option is enabled, U-Boot
will expose the UEFI API to a loaded application, enabling it to
reuse U-Boot's device drivers.
if EFI_LOADER
config CMD_BOOTEFI_BOOTMGR
bool "UEFI Boot Manager"
default y
select BOOTMETH_GLOBAL if BOOTSTD
help
Select this option if you want to select the UEFI binary to be booted
via UEFI variables Boot####, BootOrder, and BootNext. This enables the
'bootefi bootmgr' command.
choice
prompt "Store for non-volatile UEFI variables"
default EFI_VARIABLE_FILE_STORE
help
Select where non-volatile UEFI variables shall be stored.
config EFI_VARIABLE_FILE_STORE
bool "Store non-volatile UEFI variables as file"
depends on FAT_WRITE
help
Select this option if you want non-volatile UEFI variables to be
stored as file /ubootefi.var on the EFI system partition.
config EFI_MM_COMM_TEE
arm_ffa: efi: introduce FF-A MM communication Add MM communication support using FF-A transport This feature allows accessing MM partitions services through EFI MM communication protocol. MM partitions such as StandAlonneMM or smm-gateway secure partitions which reside in secure world. An MM shared buffer and a door bell event are used to exchange the data. The data is used by EFI services such as GetVariable()/SetVariable() and copied from the communication buffer to the MM shared buffer. The secure partition is notified about availability of data in the MM shared buffer by an FF-A message (door bell). On such event, MM SP can read the data and updates the MM shared buffer with the response data. The response data is copied back to the communication buffer and consumed by the EFI subsystem. MM communication protocol supports FF-A 64-bit direct messaging. We tested the FF-A MM communication on the Corstone-1000 platform. We ran the UEFI SCT test suite containing EFI setVariable, getVariable and getNextVariable tests which involve FF-A MM communication and all tests are passing with the current changes. We made the SCT test reports (part of the ACS results) public following the latest Corstone-1000 platform software release. Please find the test reports at [1]. [1]: https://gitlab.arm.com/arm-reference-solutions/arm-reference-solutions-test-report/-/tree/master/embedded-a/corstone1000/CORSTONE1000-2023.06/acs_results_fpga.zip Signed-off-by: Abdellatif El Khlifi <abdellatif.elkhlifi@arm.com> Tested-by: Gowtham Suresh Kumar <gowtham.sureshkumar@arm.com> Reviewed-by: Simon Glass <sjg@chromium.org> Cc: Tom Rini <trini@konsulko.com> Cc: Ilias Apalodimas <ilias.apalodimas@linaro.org> Cc: Jens Wiklander <jens.wiklander@linaro.org> Reviewed-by: Ilias Apalodimas <ilias.apalodimas@linaro.org> Reviewed-by: Tom Rini <trini@konsulko.com>
2023-08-04 13:33:44 +00:00
bool "UEFI variables storage service via the trusted world"
depends on OPTEE
help
arm_ffa: efi: introduce FF-A MM communication Add MM communication support using FF-A transport This feature allows accessing MM partitions services through EFI MM communication protocol. MM partitions such as StandAlonneMM or smm-gateway secure partitions which reside in secure world. An MM shared buffer and a door bell event are used to exchange the data. The data is used by EFI services such as GetVariable()/SetVariable() and copied from the communication buffer to the MM shared buffer. The secure partition is notified about availability of data in the MM shared buffer by an FF-A message (door bell). On such event, MM SP can read the data and updates the MM shared buffer with the response data. The response data is copied back to the communication buffer and consumed by the EFI subsystem. MM communication protocol supports FF-A 64-bit direct messaging. We tested the FF-A MM communication on the Corstone-1000 platform. We ran the UEFI SCT test suite containing EFI setVariable, getVariable and getNextVariable tests which involve FF-A MM communication and all tests are passing with the current changes. We made the SCT test reports (part of the ACS results) public following the latest Corstone-1000 platform software release. Please find the test reports at [1]. [1]: https://gitlab.arm.com/arm-reference-solutions/arm-reference-solutions-test-report/-/tree/master/embedded-a/corstone1000/CORSTONE1000-2023.06/acs_results_fpga.zip Signed-off-by: Abdellatif El Khlifi <abdellatif.elkhlifi@arm.com> Tested-by: Gowtham Suresh Kumar <gowtham.sureshkumar@arm.com> Reviewed-by: Simon Glass <sjg@chromium.org> Cc: Tom Rini <trini@konsulko.com> Cc: Ilias Apalodimas <ilias.apalodimas@linaro.org> Cc: Jens Wiklander <jens.wiklander@linaro.org> Reviewed-by: Ilias Apalodimas <ilias.apalodimas@linaro.org> Reviewed-by: Tom Rini <trini@konsulko.com>
2023-08-04 13:33:44 +00:00
Allowing access to the MM SP services (SPs such as StandAlonneMM, smm-gateway).
When using the u-boot OP-TEE driver, StandAlonneMM is supported.
When using the u-boot FF-A driver any MM SP is supported.
If OP-TEE is present and running StandAloneMM, dispatch all UEFI
variable related operations to that. The application will verify,
authenticate and store the variables on an RPMB.
arm_ffa: efi: introduce FF-A MM communication Add MM communication support using FF-A transport This feature allows accessing MM partitions services through EFI MM communication protocol. MM partitions such as StandAlonneMM or smm-gateway secure partitions which reside in secure world. An MM shared buffer and a door bell event are used to exchange the data. The data is used by EFI services such as GetVariable()/SetVariable() and copied from the communication buffer to the MM shared buffer. The secure partition is notified about availability of data in the MM shared buffer by an FF-A message (door bell). On such event, MM SP can read the data and updates the MM shared buffer with the response data. The response data is copied back to the communication buffer and consumed by the EFI subsystem. MM communication protocol supports FF-A 64-bit direct messaging. We tested the FF-A MM communication on the Corstone-1000 platform. We ran the UEFI SCT test suite containing EFI setVariable, getVariable and getNextVariable tests which involve FF-A MM communication and all tests are passing with the current changes. We made the SCT test reports (part of the ACS results) public following the latest Corstone-1000 platform software release. Please find the test reports at [1]. [1]: https://gitlab.arm.com/arm-reference-solutions/arm-reference-solutions-test-report/-/tree/master/embedded-a/corstone1000/CORSTONE1000-2023.06/acs_results_fpga.zip Signed-off-by: Abdellatif El Khlifi <abdellatif.elkhlifi@arm.com> Tested-by: Gowtham Suresh Kumar <gowtham.sureshkumar@arm.com> Reviewed-by: Simon Glass <sjg@chromium.org> Cc: Tom Rini <trini@konsulko.com> Cc: Ilias Apalodimas <ilias.apalodimas@linaro.org> Cc: Jens Wiklander <jens.wiklander@linaro.org> Reviewed-by: Ilias Apalodimas <ilias.apalodimas@linaro.org> Reviewed-by: Tom Rini <trini@konsulko.com>
2023-08-04 13:33:44 +00:00
When ARM_FFA_TRANSPORT is used, dispatch all UEFI variable related
operations to the MM SP running in the secure world.
A door bell mechanism is used to notify the SP when there is data in the shared
MM buffer. The data is copied by u-boot to the shared buffer before issuing
the door bell event.
config FFA_SHARED_MM_BUF_SIZE
int "Memory size of the shared MM communication buffer"
depends on EFI_MM_COMM_TEE && ARM_FFA_TRANSPORT
help
This defines the size in bytes of the memory area reserved for the shared
buffer used for communication between the MM feature in U-Boot and
the MM SP in secure world.
The size of the memory region must be a multiple of the size of the maximum
translation granule size that is specified in the ID_AA64MMFR0_EL1 System register.
It is assumed that the MM SP knows the size of the shared MM communication buffer.
config FFA_SHARED_MM_BUF_OFFSET
int "Data offset in the shared MM communication buffer"
depends on EFI_MM_COMM_TEE && ARM_FFA_TRANSPORT
help
This defines the offset in bytes of the data read or written to in the shared
buffer by the MM SP.
config FFA_SHARED_MM_BUF_ADDR
hex "Define the address of the shared MM communication buffer"
depends on EFI_MM_COMM_TEE && ARM_FFA_TRANSPORT
help
This defines the address of the shared MM communication buffer
used for communication between the MM feature in U-Boot and
the MM SP in secure world.
It is assumed that the MM SP knows the address of the shared MM communication buffer.
config EFI_VARIABLE_NO_STORE
bool "Don't persist non-volatile UEFI variables"
help
If you choose this option, non-volatile variables cannot be persisted.
You could still provide non-volatile variables via
EFI_VARIABLES_PRESEED.
endchoice
config EFI_VARIABLES_PRESEED
bool "Initial values for UEFI variables"
depends on !EFI_MM_COMM_TEE
help
Include a file with the initial values for non-volatile UEFI variables
into the U-Boot binary. If this configuration option is set, changes
to authentication related variables (PK, KEK, db, dbx) are not
allowed.
if EFI_VARIABLES_PRESEED
config EFI_VAR_SEED_FILE
string "File with initial values of non-volatile UEFI variables"
default ubootefi.var
help
File with initial values of non-volatile UEFI variables. The file must
be in the same format as the storage in the EFI system partition. The
easiest way to create it is by setting the non-volatile variables in
U-Boot. If a relative file path is used, it is relative to the source
directory.
endif
config EFI_VAR_BUF_SIZE
int "Memory size of the UEFI variable store"
efi_loader: Increase default variable store size to 64KiB Debian's arm64 UEFI Secure Boot shim makes the EFI variable store run out of space while mirroring its MOK database to variables. This can be observed in QEMU like so: $ tools/buildman/buildman -o build/qemu_arm64 --boards=qemu_arm64 -w $ cd build/qemu_arm64 $ curl -L -o debian.iso \ https://cdimage.debian.org/debian-cd/current/arm64/iso-cd/debian-12.0.0-arm64-netinst.iso $ qemu-system-aarch64 \ -nographic -bios u-boot.bin \ -machine virt -cpu cortex-a53 -m 1G -smp 2 \ -drive if=virtio,file=debian.iso,index=0,format=raw,readonly=on,media=cdrom [...] => # interrupt autoboot => env set -e -bs -nv -rt -guid 605dab50-e046-4300-abb6-3dd810dd8b23 SHIM_VERBOSE 1 => boot [...] mok.c:296:mirror_one_esl() SetVariable("MokListXRT43", ... varsz=0x4C) = Out of Resources mok.c:452:mirror_mok_db() esd:0x7DB92D20 adj:0x30 Failed to set MokListXRT: Out of Resources mok.c:767:mirror_one_mok_variable() mirror_mok_db("MokListXRT", datasz=17328) returned Out of Resources mok.c:812:mirror_one_mok_variable() returning Out of Resources Could not create MokListXRT: Out of Resources [...] Welcome to GRUB! This would normally be fine as shim would continue to run grubaa64.efi, but shim's error handling code for this case has a bug [1] that causes a synchronous abort on at least chromebook_kevin (but apparently not on QEMU arm64). Double the default variable store size so the variables fit. There is a note about this value matching PcdFlashNvStorageVariableSize when EFI_MM_COMM_TEE is enabled, so keep the old default in that case. [1] https://github.com/rhboot/shim/pull/577 Signed-off-by: Alper Nebi Yasak <alpernebiyasak@gmail.com> Reviewed-by: Heinrich Schuchardt <heinrich.schuchardt@canonical.com>
2023-07-08 15:21:12 +00:00
default 16384 if EFI_MM_COMM_TEE
default 65536
range 4096 2147483647
help
This defines the size in bytes of the memory area reserved for keeping
UEFI variables.
When using StandAloneMM (CONFIG_EFI_MM_COMM_TEE=y) this value should
match the value of PcdFlashNvStorageVariableSize used to compile the
StandAloneMM module.
efi_loader: Increase default variable store size to 64KiB Debian's arm64 UEFI Secure Boot shim makes the EFI variable store run out of space while mirroring its MOK database to variables. This can be observed in QEMU like so: $ tools/buildman/buildman -o build/qemu_arm64 --boards=qemu_arm64 -w $ cd build/qemu_arm64 $ curl -L -o debian.iso \ https://cdimage.debian.org/debian-cd/current/arm64/iso-cd/debian-12.0.0-arm64-netinst.iso $ qemu-system-aarch64 \ -nographic -bios u-boot.bin \ -machine virt -cpu cortex-a53 -m 1G -smp 2 \ -drive if=virtio,file=debian.iso,index=0,format=raw,readonly=on,media=cdrom [...] => # interrupt autoboot => env set -e -bs -nv -rt -guid 605dab50-e046-4300-abb6-3dd810dd8b23 SHIM_VERBOSE 1 => boot [...] mok.c:296:mirror_one_esl() SetVariable("MokListXRT43", ... varsz=0x4C) = Out of Resources mok.c:452:mirror_mok_db() esd:0x7DB92D20 adj:0x30 Failed to set MokListXRT: Out of Resources mok.c:767:mirror_one_mok_variable() mirror_mok_db("MokListXRT", datasz=17328) returned Out of Resources mok.c:812:mirror_one_mok_variable() returning Out of Resources Could not create MokListXRT: Out of Resources [...] Welcome to GRUB! This would normally be fine as shim would continue to run grubaa64.efi, but shim's error handling code for this case has a bug [1] that causes a synchronous abort on at least chromebook_kevin (but apparently not on QEMU arm64). Double the default variable store size so the variables fit. There is a note about this value matching PcdFlashNvStorageVariableSize when EFI_MM_COMM_TEE is enabled, so keep the old default in that case. [1] https://github.com/rhboot/shim/pull/577 Signed-off-by: Alper Nebi Yasak <alpernebiyasak@gmail.com> Reviewed-by: Heinrich Schuchardt <heinrich.schuchardt@canonical.com>
2023-07-08 15:21:12 +00:00
Minimum 4096, default 65536, or 16384 when using StandAloneMM.
config EFI_GET_TIME
bool "GetTime() runtime service"
depends on DM_RTC
default y
help
Provide the GetTime() runtime service at boottime. This service
can be used by an EFI application to read the real time clock.
config EFI_SET_TIME
bool "SetTime() runtime service"
depends on EFI_GET_TIME
default y if ARCH_QEMU || SANDBOX
help
Provide the SetTime() runtime service at boottime. This service
can be used by an EFI application to adjust the real time clock.
config EFI_SCROLL_ON_CLEAR_SCREEN
bool "Avoid overwriting previous output on clear screen"
help
Instead of erasing the screen content when the console screen should
be cleared, emit blank new lines so that previous output is scrolled
out of sight rather than overwritten. On serial consoles this allows
to capture complete boot logs (except for interactive menus etc.)
and can ease debugging related issues.
config EFI_HAVE_CAPSULE_SUPPORT
bool
config EFI_RUNTIME_UPDATE_CAPSULE
bool "UpdateCapsule() runtime service"
select EFI_HAVE_CAPSULE_SUPPORT
help
Select this option if you want to use UpdateCapsule and
QueryCapsuleCapabilities API's.
config EFI_CAPSULE_ON_DISK
bool "Enable capsule-on-disk support"
depends on SYSRESET
select EFI_HAVE_CAPSULE_SUPPORT
help
Select this option if you want to use capsule-on-disk feature,
that is, capsules can be fetched and executed from files
under a specific directory on UEFI system partition instead of
via UpdateCapsule API.
config EFI_IGNORE_OSINDICATIONS
bool "Ignore OsIndications for CapsuleUpdate on-disk"
depends on EFI_CAPSULE_ON_DISK
help
There are boards where U-Boot does not support SetVariable at runtime.
Select this option if you want to use the capsule-on-disk feature
without setting the EFI_OS_INDICATIONS_FILE_CAPSULE_DELIVERY_SUPPORTED
flag in variable OsIndications.
config EFI_CAPSULE_ON_DISK_EARLY
bool "Initiate capsule-on-disk at U-Boot boottime"
depends on EFI_CAPSULE_ON_DISK
help
Normally, without this option enabled, capsules will be
executed only at the first time of invoking one of efi command.
If this option is enabled, capsules will be enforced to be
executed as part of U-Boot initialisation so that they will
surely take place whatever is set to distro_bootcmd.
config EFI_CAPSULE_FIRMWARE
bool
config EFI_CAPSULE_FIRMWARE_MANAGEMENT
bool "Capsule: Firmware Management Protocol"
depends on EFI_HAVE_CAPSULE_SUPPORT
default y
help
Select this option if you want to enable capsule-based
firmware update using Firmware Management Protocol.
config EFI_CAPSULE_FIRMWARE_FIT
bool "FMP driver for FIT images"
depends on FIT
depends on EFI_CAPSULE_FIRMWARE_MANAGEMENT
select UPDATE_FIT
select DFU
select SET_DFU_ALT_INFO
select EFI_CAPSULE_FIRMWARE
help
Select this option if you want to enable firmware management protocol
driver for FIT image
config EFI_CAPSULE_FIRMWARE_RAW
bool "FMP driver for raw images"
depends on EFI_CAPSULE_FIRMWARE_MANAGEMENT
depends on SANDBOX || (!SANDBOX && !EFI_CAPSULE_FIRMWARE_FIT)
select DFU_WRITE_ALT
select DFU
select SET_DFU_ALT_INFO
select EFI_CAPSULE_FIRMWARE
help
Select this option if you want to enable firmware management protocol
driver for raw image
config EFI_CAPSULE_AUTHENTICATE
bool "Update Capsule authentication"
depends on EFI_CAPSULE_FIRMWARE
depends on EFI_CAPSULE_ON_DISK
depends on EFI_CAPSULE_FIRMWARE_MANAGEMENT
select HASH
select SHA256
select RSA
select RSA_VERIFY
select RSA_VERIFY_WITH_PKEY
select X509_CERTIFICATE_PARSER
select PKCS7_MESSAGE_PARSER
select PKCS7_VERIFY
select IMAGE_SIGN_INFO
select EFI_SIGNATURE_SUPPORT
help
Select this option if you want to enable capsule
authentication
config EFI_CAPSULE_MAX
int "Max value for capsule index"
default 15
range 0 65535
help
Select the max capsule index value used for capsule report
variables. This value is used to create CapsuleMax variable.
config EFI_CAPSULE_ESL_FILE
string "Path to the EFI Signature List File"
depends on EFI_CAPSULE_AUTHENTICATE
help
Provides the path to the EFI Signature List file which will
be embedded in the platform's device tree and used for
capsule authentication at the time of capsule update.
config EFI_DEVICE_PATH_TO_TEXT
bool "Device path to text protocol"
default y
help
The device path to text protocol converts device nodes and paths to
human readable strings.
config EFI_DEVICE_PATH_UTIL
bool "Device path utilities protocol"
default y
help
The device path utilities protocol creates and manipulates device
paths and device nodes. It is required to run the EFI Shell.
config EFI_DT_FIXUP
bool "Device tree fixup protocol"
depends on !GENERATE_ACPI_TABLE
default y
help
The EFI device-tree fix-up protocol provides a function to let the
firmware apply fix-ups. This may be used by boot loaders.
config EFI_LOADER_HII
bool "HII protocols"
default y
help
The Human Interface Infrastructure is a complicated framework that
allows UEFI applications to draw fancy menus and hook strings using
a translation framework.
U-Boot implements enough of its features to be able to run the UEFI
Shell, but not more than that.
config EFI_UNICODE_COLLATION_PROTOCOL2
bool "Unicode collation protocol"
default y
help
The Unicode collation protocol is used for lexical comparisons. It is
required to run the UEFI shell.
if EFI_UNICODE_COLLATION_PROTOCOL2
config EFI_UNICODE_CAPITALIZATION
bool "Support Unicode capitalization"
default y
help
Select this option to enable correct handling of the capitalization of
Unicode codepoints in the range 0x0000-0xffff. If this option is not
set, only the the correct handling of the letters of the codepage
used by the FAT file system is ensured.
endif
config EFI_LOADER_BOUNCE_BUFFER
bool "EFI Applications use bounce buffers for DMA operations"
depends on ARM64
help
Some hardware does not support DMA to full 64bit addresses. For this
hardware we can create a bounce buffer so that payloads don't have to
worry about platform details.
config EFI_PLATFORM_LANG_CODES
string "Language codes supported by firmware"
default "en-US"
help
This value is used to initialize the PlatformLangCodes variable. Its
value is a semicolon (;) separated list of language codes in native
RFC 4646 format, e.g. "en-US;de-DE". The first language code is used
to initialize the PlatformLang variable.
config EFI_HAVE_RUNTIME_RESET
# bool "Reset runtime service is available"
bool
default y
depends on ARCH_BCM283X || FSL_LAYERSCAPE || PSCI_RESET || \
SANDBOX || SYSRESET_X86
config EFI_GRUB_ARM32_WORKAROUND
bool "Workaround for GRUB on 32bit ARM"
default n if ARCH_BCM283X || ARCH_SUNXI || ARCH_QEMU
default y
depends on ARM && !ARM64
help
GRUB prior to version 2.04 requires U-Boot to disable caches. This
workaround currently is also needed on systems with caches that
cannot be managed via CP15.
config EFI_RNG_PROTOCOL
bool "EFI_RNG_PROTOCOL support"
depends on DM_RNG
default y
help
Provide a EFI_RNG_PROTOCOL implementation using the hardware random
number generator of the platform.
config EFI_TCG2_PROTOCOL
bool "EFI_TCG2_PROTOCOL support"
default y
depends on TPM_V2
# Sandbox TPM currently fails on GetCapabilities needed for TCG2
depends on !SANDBOX
select SHA1
select SHA256
select SHA384
select SHA512
select HASH
select SMBIOS_PARSER
help
Provide a EFI_TCG2_PROTOCOL implementation using the TPM hardware
of the platform.
config EFI_TCG2_PROTOCOL_EVENTLOG_SIZE
int "EFI_TCG2_PROTOCOL EventLog size"
depends on EFI_TCG2_PROTOCOL
default 65536
help
Define the size of the EventLog for EFI_TCG2_PROTOCOL. Note that
this is going to be allocated twice. One for the eventlog it self
and one for the configuration table that is required from the spec
config EFI_TCG2_PROTOCOL_MEASURE_DTB
bool "Measure DTB with EFI_TCG2_PROTOCOL"
depends on EFI_TCG2_PROTOCOL
help
When enabled, the DTB image passed to the booted EFI image is
measured using the EFI TCG2 protocol. Do not enable this feature if
the passed DTB contains data that change across platform reboots
and cannot be used has a predictable measurement. Otherwise
this feature allows better measurement of the system boot
sequence.
config EFI_LOAD_FILE2_INITRD
bool "EFI_FILE_LOAD2_PROTOCOL for Linux initial ramdisk"
efi_loader: Replace config option for initrd loading Up to now we install EFI_LOAD_FILE2_PROTOCOL to load an initrd unconditionally. Although we correctly return various EFI exit codes depending on the file status (i.e EFI_NO_MEDIA, EFI_NOT_FOUND etc), the kernel loader, only falls back to the cmdline interpreted initrd if the protocol is not installed. This creates a problem for EFI installers, since they won't be able to load their own initrd and continue the installation. It also makes the feature hard to use, since we can either have a single initrd or we have to recompile u-boot if the filename changes. So let's introduce a different logic that will decouple the initrd path from the config option we currently have. When defining a UEFI BootXXXX we can use the filepathlist and store a file path pointing to our initrd. Specifically the EFI spec describes: "The first element of the array is a device path that describes the device and location of the Image for this load option. Other device paths may optionally exist in the FilePathList, but their usage is OSV specific" When the EFI application is launched through the bootmgr, we'll try to interpret the extra device path. If that points to a file that exists on our disk, we'll now install the load_file2 and the efi-stub will be able to use it. This opens up another path using U-Boot and defines a new boot flow. A user will be able to control the kernel/initrd pairs without explicit cmdline args or GRUB. Signed-off-by: Ilias Apalodimas <ilias.apalodimas@linaro.org> Reviewed-by: Heinrich Schuchardt <xypron.glpk@gmx.de>
2021-03-17 19:55:00 +00:00
default y
help
efi_loader: Replace config option for initrd loading Up to now we install EFI_LOAD_FILE2_PROTOCOL to load an initrd unconditionally. Although we correctly return various EFI exit codes depending on the file status (i.e EFI_NO_MEDIA, EFI_NOT_FOUND etc), the kernel loader, only falls back to the cmdline interpreted initrd if the protocol is not installed. This creates a problem for EFI installers, since they won't be able to load their own initrd and continue the installation. It also makes the feature hard to use, since we can either have a single initrd or we have to recompile u-boot if the filename changes. So let's introduce a different logic that will decouple the initrd path from the config option we currently have. When defining a UEFI BootXXXX we can use the filepathlist and store a file path pointing to our initrd. Specifically the EFI spec describes: "The first element of the array is a device path that describes the device and location of the Image for this load option. Other device paths may optionally exist in the FilePathList, but their usage is OSV specific" When the EFI application is launched through the bootmgr, we'll try to interpret the extra device path. If that points to a file that exists on our disk, we'll now install the load_file2 and the efi-stub will be able to use it. This opens up another path using U-Boot and defines a new boot flow. A user will be able to control the kernel/initrd pairs without explicit cmdline args or GRUB. Signed-off-by: Ilias Apalodimas <ilias.apalodimas@linaro.org> Reviewed-by: Heinrich Schuchardt <xypron.glpk@gmx.de>
2021-03-17 19:55:00 +00:00
Linux v5.7 and later can make use of this option. If the boot option
selected by the UEFI boot manager specifies an existing file to be used
as initial RAM disk, a Linux specific Load File2 protocol will be
installed and Linux 5.7+ will ignore any initrd=<ramdisk> command line
argument.
config EFI_SECURE_BOOT
bool "Enable EFI secure boot support"
depends on EFI_LOADER && FIT_SIGNATURE
select HASH
select SHA256
select RSA
select RSA_VERIFY_WITH_PKEY
select IMAGE_SIGN_INFO
select ASYMMETRIC_KEY_TYPE
select ASYMMETRIC_PUBLIC_KEY_SUBTYPE
select X509_CERTIFICATE_PARSER
select PKCS7_MESSAGE_PARSER
select PKCS7_VERIFY
select MSCODE_PARSER
select EFI_SIGNATURE_SUPPORT
help
Select this option to enable EFI secure boot support.
Once SecureBoot mode is enforced, any EFI binary can run only if
it is signed with a trusted key. To do that, you need to install,
at least, PK, KEK and db.
config EFI_SIGNATURE_SUPPORT
bool
config EFI_ESRT
bool "Enable the UEFI ESRT generation"
depends on EFI_CAPSULE_FIRMWARE_MANAGEMENT
default y
help
Enabling this option creates the ESRT UEFI system table.
config EFI_ECPT
bool "Enable the UEFI ECPT generation"
default y
help
Enabling this option created the ECPT UEFI table.
config EFI_EBBR_2_1_CONFORMANCE
bool "Add the EBBRv2.1 conformance entry to the ECPT table"
depends on EFI_ECPT
depends on EFI_LOADER_HII
depends on EFI_RISCV_BOOT_PROTOCOL || !RISCV
depends on EFI_RNG_PROTOCOL || !DM_RNG
depends on EFI_UNICODE_COLLATION_PROTOCOL2
default y
help
Enabling this option adds the EBBRv2.1 conformance entry to the ECPT UEFI table.
config EFI_RISCV_BOOT_PROTOCOL
bool "RISCV_EFI_BOOT_PROTOCOL support"
default y
depends on RISCV
help
The EFI_RISCV_BOOT_PROTOCOL is used to transfer the boot hart ID
to the next boot stage. It should be enabled as it is meant to
replace the transfer via the device-tree. The latter is not
possible on systems using ACPI.
endif