doc: Update CapsuleUpdate READMEs

Since we removed embeddingg the capsule key into a .dtb and fixed authenticated capsule updates for all boards, move the relevant documentation in the efi file and update it accordingly Signed-off-by: Ilias Apalodimas <ilias.apalodimas@linaro.org>
2025-04-23 13:56:20 +00:00 · 2021-07-17 17:26:46 +03:00 · 2021-07-17 17:26:46 +03:00 · 316ab801c0
commit 316ab801c0
parent f86caab058
2 changed files with 125 additions and 203 deletions
--- a/doc/board/emulation/qemu_capsule_update.rst
+++ b/doc/board/emulation/qemu_capsule_update.rst
@ -1,203 +0,0 @@
 .. SPDX-License-Identifier: GPL-2.0+
 .. Copyright (C) 2020, Linaro Limited
 Enabling UEFI Capsule Update feature
 ------------------------------------
 Support has been added for the UEFI capsule update feature which
 enables updating the U-Boot image using the UEFI firmware management
 protocol (fmp). The capsules are not passed to the firmware through
 the UpdateCapsule runtime service. Instead, capsule-on-disk
 functionality is used for fetching the capsule from the EFI System
 Partition (ESP) by placing the capsule file under the
 \EFI\UpdateCapsule directory.
 Currently, support has been added on the QEMU ARM64 virt platform for
 updating the U-Boot binary as a raw image when the platform is booted
 in non-secure mode, i.e. with CONFIG_TFABOOT disabled. For this
 configuration, the QEMU platform needs to be booted with
 'secure=off'. The U-Boot binary placed on the first bank of the NOR
 flash at offset 0x0. The U-Boot environment is placed on the second
 NOR flash bank at offset 0x4000000.
 The capsule update feature is enabled with the following configuration
 settings::
    CONFIG_MTD=y
    CONFIG_FLASH_CFI_MTD=y
    CONFIG_CMD_MTDPARTS=y
    CONFIG_CMD_DFU=y
    CONFIG_DFU_MTD=y
    CONFIG_PCI_INIT_R=y
    CONFIG_EFI_CAPSULE_ON_DISK=y
    CONFIG_EFI_CAPSULE_FIRMWARE_MANAGEMENT=y
    CONFIG_EFI_CAPSULE_FIRMWARE=y
    CONFIG_EFI_CAPSULE_FIRMWARE_RAW=y
    CONFIG_EFI_CAPSULE_FMP_HEADER=y
 In addition, the following config needs to be disabled(QEMU ARM specific)::
    CONFIG_TFABOOT
 The capsule file can be generated by using the tools/mkeficapsule::
    $ mkeficapsule --raw <u-boot.bin> --index 1 <capsule_file_name>
 As per the UEFI specification, the capsule file needs to be placed on
 the EFI System Partition, under the \EFI\UpdateCapsule directory. The
 EFI System Partition can be a virtio-blk-device.
 Before initiating the firmware update, the efi variables BootNext,
 BootXXXX and OsIndications need to be set. The BootXXXX variable needs
 to be pointing to the EFI System Partition which contains the capsule
 file. The BootNext, BootXXXX and OsIndications variables can be set
 using the following commands::
    => efidebug boot add -b 0 Boot0000 virtio 0:1 <capsule_file_name>
    => efidebug boot next 0
    => setenv -e -nv -bs -rt -v OsIndications =0x04
    => saveenv
 Finally, the capsule update can be initiated with the following
 command::
    => efidebug capsule disk-update
 The updated U-Boot image will be booted on subsequent boot.
 Enabling Capsule Authentication
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
 The UEFI specification defines a way of authenticating the capsule to
 be updated by verifying the capsule signature. The capsule signature
 is computed and prepended to the capsule payload at the time of
 capsule generation. This signature is then verified by using the
 public key stored as part of the X509 certificate. This certificate is
 in the form of an efi signature list (esl) file, which is embedded as
 part of the platform's device tree blob using the mkeficapsule
 utility.
 On the QEMU virt platforms, the device-tree is generated on the fly
 based on the devices configured. This device tree is then passed on to
 the various software components booting on the platform, including
 U-Boot. Therefore, on the QEMU virt platform, the signatute is
 embedded on an overlay. This overlay is then applied at runtime to the
 base platform device-tree. Steps needed for embedding the esl file in
 the overlay are highlighted below.
 The capsule authentication feature can be enabled through the
 following config, in addition to the configs listed above for capsule
 update::
    CONFIG_EFI_CAPSULE_AUTHENTICATE=y
 The public and private keys used for the signing process are generated
 and used by the steps highlighted below::
    1. Install utility commands on your host
       * OPENSSL
       * efitools
    2. Create signing keys and certificate files on your host
        $ openssl req -x509 -sha256 -newkey rsa:2048 -subj /CN=CRT/ \
            -keyout CRT.key -out CRT.crt -nodes -days 365
        $ cert-to-efi-sig-list CRT.crt CRT.esl
        $ openssl x509 -in CRT.crt -out CRT.cer -outform DER
        $ openssl x509 -inform DER -in CRT.cer -outform PEM -out CRT.pub.pem
        $ openssl pkcs12 -export -out CRT.pfx -inkey CRT.key -in CRT.crt
        $ openssl pkcs12 -in CRT.pfx -nodes -out CRT.pem
 The capsule file can be generated by using the GenerateCapsule.py
 script in EDKII::
    $ ./BaseTools/BinWrappers/PosixLike/GenerateCapsule -e -o \
      <capsule_file_name> --monotonic-count <val> --fw-version \
      <val> --lsv <val> --guid \
      e2bb9c06-70e9-4b14-97a3-5a7913176e3f --verbose \
      --update-image-index <val> --signer-private-cert \
      /path/to/CRT.pem --trusted-public-cert \
      /path/to/CRT.pub.pem --other-public-cert /path/to/CRT.pub.pem \
      <u-boot.bin>
 Place the capsule generated in the above step on the EFI System
 Partition under the EFI/UpdateCapsule directory
 For embedding the public key certificate, the following steps need to
 be followed::
    1. Generate a skeleton overlay dts file, with a single fragment
       node and an empty __overlay__ node
       A typical skeleton overlay file will look like this
       /dts-v1/;
       /plugin/;
       / {
               fragment@0 {
                       target-path = "/";
                       __overlay__ {
                       };
               };
       };
    2. Convert the dts to a corresponding dtb with the following
       command
        ./scripts/dtc/dtc -@ -I dts -O dtb -o <ov_dtb_file_name> \
        <dts_file>
    3. Run the dtb file generated above through the mkeficapsule tool
       in U-Boot
        ./tools/mkeficapsule -O <pub_key.esl> -D <ov_dtb>
 Running the above command results in the creation of a 'signature'
 node in the dtb, under which the public key is stored as a
 'capsule-key' property. The '-O' option is to be used since the
 public key certificate(esl) file is being embedded in an overlay.
 The dtb file embedded with the certificate is now to be placed on an
 EFI System Partition. This would then be loaded and "merged" with the
 base platform flattened device-tree(dtb) at runtime.
 Build U-Boot with the following steps(QEMU ARM64)::
    $ make qemu_arm64_defconfig
    $ make menuconfig
        Disable CONFIG_TFABOOT
        Enable CONFIG_EFI_CAPSULE_AUTHENTICATE
        Enable all configs needed for capsule update(listed above)
    $ make all
 Boot the platform and perform the following steps on the U-Boot
 command line::
    1. Enable capsule authentication by setting the following env
       variable
        => setenv capsule_authentication_enabled 1
        => saveenv
    2. Load the overlay dtb to memory and merge it with the base fdt
        => fatload virtio 0:1 <$fdtovaddr> EFI/<ov_dtb_file>
        => fdt addr $fdtcontroladdr
        => fdt resize <size_of_ov_dtb_file>
        => fdt apply <$fdtovaddr>
    3. Set the following environment and UEFI boot variables
        => setenv -e -nv -bs -rt -v OsIndications =0x04
        => efidebug boot add -b 0 Boot0000 virtio 0:1 <capsule_file_name>
        => efidebug boot next 0
        => saveenv
    4. Finally, the capsule update can be initiated with the following
       command
        => efidebug capsule disk-update
 On subsequent reboot, the platform should boot the updated U-Boot binary.
--- a/doc/develop/uefi/uefi.rst
+++ b/doc/develop/uefi/uefi.rst
@ -277,6 +277,131 @@ Enable ``CONFIG_OPTEE``, ``CONFIG_CMD_OPTEE_RPMB`` and ``CONFIG_EFI_MM_COMM_TEE`
 [1] https://optee.readthedocs.io/en/latest/building/efi_vars/stmm.html
 Enabling UEFI Capsule Update feature
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 Support has been added for the UEFI capsule update feature which
 enables updating the U-Boot image using the UEFI firmware management
 protocol (FMP). The capsules are not passed to the firmware through
 the UpdateCapsule runtime service. Instead, capsule-on-disk
 functionality is used for fetching the capsule from the EFI System
 Partition (ESP) by placing the capsule file under the
 \EFI\UpdateCapsule directory.
 The directory \EFI\UpdateCapsule is checked for capsules only within the
 EFI system partition on the device specified in the active boot option
 determined by reference to BootNext variable or BootOrder variable processing.
 The active Boot Variable is the variable with highest priority BootNext or
 within BootOrder that refers to a device found to be present. Boot variables
 in BootOrder but referring to devices not present are ignored when determining
 active boot variable.
 Before starting a capsule update make sure your capsules are installed in the
 correct ESP partition or set BootNext.
 Performing the update
 *********************
 Since U-boot doesn't currently support SetVariable at runtime there's a Kconfig
 option (CONFIG_EFI_IGNORE_OSINDICATIONS) to disable the OsIndications variable
 check. If that option is enabled just copy your capsule to \EFI\UpdateCapsule.
 If that option is disabled, you'll need to set the OsIndications variable with::
    => setenv -e -nv -bs -rt -v OsIndications =0x04
 Finally, the capsule update can be initiated either by rebooting the board,
 which is the preferred method, or by issuing the following command::
    => efidebug capsule disk-update
 **The efidebug command is should only be used during debugging/development.**
 Enabling Capsule Authentication
 *******************************
 The UEFI specification defines a way of authenticating the capsule to
 be updated by verifying the capsule signature. The capsule signature
 is computed and prepended to the capsule payload at the time of
 capsule generation. This signature is then verified by using the
 public key stored as part of the X509 certificate. This certificate is
 in the form of an efi signature list (esl) file, which is embedded as
 part of U-Boot.
 The capsule authentication feature can be enabled through the
 following config, in addition to the configs listed above for capsule
 update::
    CONFIG_EFI_CAPSULE_AUTHENTICATE=y
    CONFIG_EFI_CAPSULE_KEY_PATH=<path to .esl cert>
 The public and private keys used for the signing process are generated
 and used by the steps highlighted below::
    1. Install utility commands on your host
       * OPENSSL
       * efitools
    2. Create signing keys and certificate files on your host
        $ openssl req -x509 -sha256 -newkey rsa:2048 -subj /CN=CRT/ \
            -keyout CRT.key -out CRT.crt -nodes -days 365
        $ cert-to-efi-sig-list CRT.crt CRT.esl
        $ openssl x509 -in CRT.crt -out CRT.cer -outform DER
        $ openssl x509 -inform DER -in CRT.cer -outform PEM -out CRT.pub.pem
        $ openssl pkcs12 -export -out CRT.pfx -inkey CRT.key -in CRT.crt
        $ openssl pkcs12 -in CRT.pfx -nodes -out CRT.pem
 The capsule file can be generated by using the GenerateCapsule.py
 script in EDKII::
    $ ./BaseTools/BinWrappers/PosixLike/GenerateCapsule -e -o \
      <capsule_file_name> --monotonic-count <val> --fw-version \
      <val> --lsv <val> --guid \
      e2bb9c06-70e9-4b14-97a3-5a7913176e3f --verbose \
      --update-image-index <val> --signer-private-cert \
      /path/to/CRT.pem --trusted-public-cert \
      /path/to/CRT.pub.pem --other-public-cert /path/to/CRT.pub.pem \
      <u-boot.bin>
 Place the capsule generated in the above step on the EFI System
 Partition under the EFI/UpdateCapsule directory
 Testing on QEMU
 ***************
 Currently, support has been added on the QEMU ARM64 virt platform for
 updating the U-Boot binary as a raw image when the platform is booted
 in non-secure mode, i.e. with CONFIG_TFABOOT disabled. For this
 configuration, the QEMU platform needs to be booted with
 'secure=off'. The U-Boot binary placed on the first bank of the NOR
 flash at offset 0x0. The U-Boot environment is placed on the second
 NOR flash bank at offset 0x4000000.
 The capsule update feature is enabled with the following configuration
 settings::
    CONFIG_MTD=y
    CONFIG_FLASH_CFI_MTD=y
    CONFIG_CMD_MTDPARTS=y
    CONFIG_CMD_DFU=y
    CONFIG_DFU_MTD=y
    CONFIG_PCI_INIT_R=y
    CONFIG_EFI_CAPSULE_ON_DISK=y
    CONFIG_EFI_CAPSULE_FIRMWARE_MANAGEMENT=y
    CONFIG_EFI_CAPSULE_FIRMWARE=y
    CONFIG_EFI_CAPSULE_FIRMWARE_RAW=y
    CONFIG_EFI_CAPSULE_FMP_HEADER=y
 In addition, the following config needs to be disabled(QEMU ARM specific)::
    CONFIG_TFABOOT
 The capsule file can be generated by using the tools/mkeficapsule::
    $ mkeficapsule --raw <u-boot.bin> --index 1 <capsule_file_name>
 Executing the boot manager
 ~~~~~~~~~~~~~~~~~~~~~~~~~~