U-Boot overview

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Das U-Boot

Das U-Boot (“通用引导加载程序”或U-Boot) 是一种开源引导加载程序,可用于ST板上以初始化平台并加载Linux® 内核。 

 PC $> git clone https://gitlab.denx.de/u-boot/u-boot.git

在开始使用U-Boot之前,请阅读README | |}} README file 。它涵盖以下主题:

  • 源文件树结构
  • 配置定义说明
  • 关于构建U-Boot的说明
  • Hush外壳的简要说明
  • 常用环境变量列表

U-Boot overview

Zoom out to STM32MPU Embedded Software

同一个U-Boot源可以生成SPL和U-Boot中使用的两个固件 STM32 MPU boot chain:

  • 受信任的引导链:TF-A作为FSBL,U-Boot作为SSBL
  • 基本启动链:SPL作为FSBL,U-Boot作为SSBL


Warning.png 基本启动链不能用于产品开发 (请参见Boot chains overview 以获取详细信息).

它仅作为最简单的SSBL的示例提供,并支持上游U-Boot开发。但是,当SPL与U-Boot中提供的用于基本引导链的最小安全监视器结合使用时,已经发现了几个已知的限制。它们适用于:

  • 功率
  • 安全访问寄存器
  • 有限的功能(STM32CubeProgrammer / boot from NAND Flash memory).

没有针对这些限制的修复计划。

SPL: FSBL for basic boot

U-Boot SPLSPLthe basic boot chain的第一阶段引导加载程序(FSBL)。
它是从U-Boot源生成的小二进制文件(引导实用程序),并存储在内部有限大小的嵌入式RAM中。SPL的主要功能如下:

  • 它由ROM代码加载。
  • 它执行初始的CPU和板配置(时钟和DDR内存)。
  • 它将SSBL(U-Boot)加载到DDR内存中。

U-Boot: SSBL

U-Boot 是STM32 MPU平台的默认第二阶段引导程序(SSBL)。它同时用于 trusted and basic引导链

SSBL的主要功能如下:

  • 它是可配置和消耗的。
  • 它具有一个简单的命令行界面(CLI),允许用户通过串行端口控制台进行交互。
  • 它提供脚本功能
  • 它将内核加载到RAM中并控制内核
  • 它管理多个内部和外部设备,例如NAND和NOR闪存,以太网和USB。
  • 它支持以下功能和命令:
    • 文件系统:FAT, UBI/UBIFS, JFFS
    • IP堆栈:FTP
    • 显示: LCD, HDMI, BMP for splashcreen
    • USB: host (mass storage) or device (DFU stack)

SPL phases

SPL 在SYSRAM中执行以下主要阶段:

  • board_init_f(): 驱动程序初始化,包括DDR初始化(最小堆栈和堆:CONFIG_SPL_STACK_R_MALLOC_SIMPLE_LEN)
  • DDR内存中堆的配置(CONFIG_SPL_SYS_MALLOC_F_LEN)
  • board_init_r(): 初始化在SPL设备树中激活的其他驱动程序
  • 加载并执行U-Boot(或Falcon模式下的内核[1]: doc/README.falcon | |}} README.falcon ).

U-Boot phases

U-Boot 在DDR内存中执行以下主要阶段:

  • Pre-relocation 初始化 (common/board_f.c): 在CONFIG_SYS_TEXT_BASE加载地址上运行的最小初始化(例如CPU,时钟,重置,DDR和控制台)
  • Relocation: 将代码复制到DDR内存的末尾。
  • Post-relocation initialization:(common/board_r.c): 初始化所有驱动程序。
  • Command execution 通过自动引导(CONFIG_AUTOBOOT)或控制台shell
    • 启动命令的执行(默认情况下 bootcmd=CONFIG_BOOTCOMMAND):
      例如,将命令bootm执行到:
      • 加载并检查映像(例如内核,设备树和ramdisk)
      • 修复内核设备树
      • 安装安全监视器(可选)或
      • 将控制权传递给Linux内核(或另一个目标应用程序)

U-Boot configuration

U-Boot二进制配置基于

  • DeviceTree: U-Boot和SPL二进制文件包括在运行时解析的设备树blob

所有的配置标志(前缀为 CONFIG_)都在源代码中描述, 或者在 README | |}} README 文件中,或者在doc/ | |}} documentation directory 目录中。
例如,CONFIG_SPL激活SPL编译
因此,为了选择一个预定义的配置,需要为主板编译 U-Boot,select the <target>the device tree
有关示例,请参阅#U-Boot_build

Kbuild

与内核一样,U-Boot构建系统也基于 configuration symbols (在Kconfig文件中定义). 选定的值存储在build目录的.config文件中,具有相同的Makefile目标。
按照以下步骤进行: 

 PC $> make <config>_defconfig.
  • 使用以下五个make 命令之一更改U-Boot编译配置(修改.config):
 PC $> make menuconfig --> menu based program
 PC $> make config  --> line-oriented configuration
 PC $> make xconfig --> QT program[2]
 PC $> make gconfig --> GTK program
 PC $> make nconfig --> ncurse menu based program

然后,您可以使用更新的.config编译U-Boot。

Warning: 修改是在构建目录的本地执行的。在 make distclean 之后它将丢失.

保存您的配置以将其用作defconfig文件: 

  PC $> make savedefconfig

此目标将当前配置保存为build目录中的defconfig文件。 然后可以将其与预定义的配置进行比较(configs/stm32mp*defconfig).

其他makefile目标如下: 

  PC $> make help
 ....
 Configuration targets:
   config	  - Update current config utilising a line-oriented program
   nconfig         - Update current config utilising a ncurses menu based
                     program
   menuconfig	  - Update current config utilising a menu based program
   xconfig	  - Update current config utilising a Qt based front-end
   gconfig	  - Update current config utilising a GTK+ based front-end
   oldconfig	  - Update current config utilising a provided .config as base
   localmodconfig  - Update current config disabling modules not loaded
   localyesconfig  - Update current config converting local mods to core
   defconfig	  - New config with default from ARCH supplied defconfig
   savedefconfig   - Save current config as ./defconfig (minimal config)
   allnoconfig	  - New config where all options are answered with no
   allyesconfig	  - New config where all options are accepted with yes
   allmodconfig	  - New config selecting modules when possible
   alldefconfig    - New config with all symbols set to default
   randconfig	  - New config with random answer to all options
   listnewconfig   - List new options
   olddefconfig	  - Same as oldconfig but sets new symbols to their
                    default value without prompting

Device tree

Refer to doc/README.fdt-control | |}} doc/README.fdt-control for details.

The board device tree has the same binding as the kernel. It is integrated within the SPL and U-Boot binaries:

  • By default, it is appended at the end of the code (CONFIG_OF_SEPARATE).
  • It is embedded in the U-Boot binary (CONFIG_OF_EMBED). This is useful for debugging since it enables easy .elf file loading.

A default device tree is available in the defconfig file (by setting CONFIG_DEFAULT_DEVICE_TREE).

You can either select another supported device tree using the DEVICE_TREE make flag. For stm32mp boards, the corresponding file is: arch/arm/dts/ | |}} arch/arm/dts/stm32mp*.dts . 

  PC $> make DEVICE_TREE=<dts-file-name>

or provide a precompiled device tree blob (using EXT_DTB option): 

  PC $> make EXT_DTB=boot/<dts-file-name>.dtb

The SPL device tree is also generated from this device tree. However to reduce its size, the U-Boot makefile uses the fdtgrep tool to parse the full U-Boot DTB and identify all the drivers required by SPL.

To do this, U-Boot uses specific device-tree flags to define if the associated driver is initialized prior to U-Boot relocation and/or if the associated node is present in SPL :

  • u-boot,dm-pre-reloc => present in SPL, initialized before relocation in U-Boot
  • u-boot,dm-pre-proper => initialized before relocation in U-Boot
  • u-boot,dm-spl => present in SPL

In the device tree used by U-Boot, these flags need to be added in each node used in SPL or in U-Boot before relocation and for each used handle (clock, reset, pincontrol).

U-Boot command line interface (CLI)

Refer to U-Boot Command Line Interface.

If CONFIG_AUTOBOOT is activated, you have CONFIG_BOOTDELAY seconds (2s by default) to enter the console by pressing any key, after the line below is displayed and bootcmd is executed (CONFIG_BOOTCOMMAND): 

 Hit any key to stop autoboot:  2

Commands

The commands are defined in cmd/ | |}} cmd/*.c . They are activated through the corresponding CONFIG_CMD_* configuration flag.

Use the help command in the U-Boot shell to list the commands available on your device: 

 Board $> help

Below the list of all commands extracted from U-Boot Manual (not-exhaustive):

  • Information Commands
    • bdinfo - prints Board Info structure
    • coninfo - prints console devices and information
    • flinfo - prints Flash memory information
    • iminfo - prints header information for application image
    • help - prints online help
  • Memory Commands
    • base - prints or sets the address offset
    • crc32 - checksum calculation
    • cmp - memory compare
    • cp - memory copy
    • md - memory display
    • mm - memory modify (auto-incrementing)
    • mtest - simple RAM test
    • mw - memory write (fill)
    • nm - memory modify (constant address)
    • loop - infinite loop on address range
  • Flash Memory Commands
    • cp - memory copy
    • flinfo - prints Flash memory information
    • erase - erases Flash memory
    • protect - enables or disables Flash memory write protection
    • mtdparts - defines a Linux compatible MTD partition scheme
  • Execution Control Commands
    • source - runs a script from memory
    • bootm - boots application image from memory
    • go - starts application at address 'addr'
  • Download Commands
    • bootp - boots image via network using BOOTP/TFTP protocol
    • dhcp - invokes DHCP client to obtain IP/boot params
    • loadb - loads binary file over serial line (kermit mode)
    • loads - loads S-Record file over serial line
    • rarpboot- boots image via network using RARP/TFTP protocol
    • tftpboot- boots image via network using TFTP protocol
  • Environment Variables Commands
    • printenv- prints environment variables
    • saveenv - saves environment variables to persistent storage
    • setenv - sets environment variables
    • run - runs commands in an environment variable
    • bootd - boots default, i.e., run 'bootcmd'
  • Flattened Device Tree support
    • fdt addr - selects the FDT to work on
    • fdt list - prints one level
    • fdt print - recursive printing
    • fdt mknode - creates new nodes
    • fdt set - sets node properties
    • fdt rm - removes nodes or properties
    • fdt move - moves FDT blob to new address
    • fdt chosen - fixup dynamic information
  • Special Commands
    • i2c - I2C sub-system
  • Storage devices
  • Miscellaneous Commands
    • echo - echoes args to console
    • reset - Performs a CPU reset
    • sleep - delays the execution for a predefined time
    • version - prints the monitor version

To add a new command, refer to doc/README.commands | |}} doc/README.commands .

U-Boot environment variables

The U-Boot behavior is configured through environment variables.

Refer to Manual and README | |}} README / Environment Variables.

On the first boot, U-Boot uses a default environment embedded in the U-Boot binary. You can modify it by changing the content of CONFIG_EXTRA_ENV_SETTINGS in your configuration file (for example ./include/configs/stm32mp1.h) (see README | |}} README / - Default Environment).

This environment can be modified and saved in the boot device. When it is present, it is loaded during U-Boot initialization:

  • for e•MMC/SD card boot (CONFIG_ENV_IS_IN_EXT4), in the bootable ext4 partition "bootfs" in
    in file CONFIG_ENV_EXT4_FILE="uboot.env".
  • for NAND boot (CONFIG_ENV_IS_IN_UBI), in the two UBI volumes "config" (CONFIG_ENV_UBI_VOLUME) and "config_r" (CONFIG_ENV_UBI_VOLUME_REDUND).
  • for NOR boot (CONFIG_ENV_IS_IN_SPI_FLASH), in the u-boot_env mtd parttion (at offset CONFIG_ENV_OFFSET).

env command

The env command allows displaying, modifying and saving the environment in U-Boot console. 

 Board $> help env
 env - environment handling commands
 
 Usage:
 env default [-f] -a - [forcibly] reset default environment
 env default [-f] var [...] - [forcibly] reset variable(s) to their default values
 env delete [-f] var [...] - [forcibly] delete variable(s)
 env edit name - edit environment variable
 env exists name - tests for existence of variable
 env print [-a | name ...] - print environment
 env print -e [name ...] - print UEFI environment
 env run var [...] - run commands in an environment variable
 env save - save environment
 env set -e name [arg ...] - set UEFI variable; unset if 'arg' not specified
 env set [-f] name [arg ...]

Example: proceed as follows to restore the default environment and save it. This is useful after a U-Boot upgrade: 

 Board $> env default -a
 Board $> env save

bootcmd

"bootcmd" variable is the autoboot command. It defines the command executed when U-Boot starts (CONFIG_BOOTCOMMAND).

For stm32mp, CONFIG_BOOTCOMMAND="run bootcmd_stm32mp": 

 Board $> env print bootcmd    
  bootcmd=run bootcmd_stm32mp

"bootcmd_stm32mp" is a script that selects the command to be executed for each boot device (see ./include/configs/stm32mp1.h), based on generic distro scripts:

  • for serial/usb: execute the stm32prog command.
  • for mmc boot (e•MMC, SD card), boot only on the same device (bootcmd_mmc...).
  • for nand boot, boot with on ubifs partition on nand (bootcmd_ubi0).
  • for nor boot, use the default order e•MMC (SDMMC 1)/ NAND / SD card (SDMMC 0) / SDMMC2 (the default bootcmd: distro_bootcmd).
 Board $> env print bootcmd_stm32mp

You can then change this configuration:

  • either permanently in your board file (default environment by CONFIG_EXTRA_ENV_SETTINGS or change CONFIG_BOOTCOMMAND value) or
  • temporarily in the saved environment:
 Board $> env set bootcmd run bootcmd_mmc0 
 Board $> env save

Note: To reset the environment to its default value: 

 Board $> env default bootcmd
 Board $> env save

Generic Distro configuration

Refer to doc/README.distro | |}} doc/README.distro for details.

This feature is activated by default on ST boards (CONFIG_DISTRO_DEFAULTS):

When DISTRO is enabled, the command that is executed by default is include/config_distro_bootcmd.h| |}} include/config_distro_bootcmd.h : 

 bootcmd=run distro_bootcmd

This script tries any device found in the 'boot_targets' variable and executes the associated bootcmd.

Example for mmc0, mmc1, mmc2, pxe and ubifs devices: 

 bootcmd_mmc0=setenv devnum 0; run mmc_boot
 bootcmd_mmc1=setenv devnum 1; run mmc_boot
 bootcmd_mmc2=setenv devnum 2; run mmc_boot
 bootcmd_pxe=run boot_net_usb_start; dhcp; if pxe get; then pxe boot; fi
 bootcmd_ubifs0=setenv devnum 0; run ubifs_boot

U-Boot searches for a extlinux.conf configuration file for each bootable device. This file defines the kernel configuration to be used:

  • bootargs
  • kernel + device tree + ramdisk files (optional)
  • FIT image

U-Boot scripting capabilities

"Script files" are command sequences that are executed by the U-Boot command interpreter. This feature is particularly useful to configure U-Boot to use a real shell (hush) as command interpreter.

See U-Boot script manual for an example.

U-Boot build

Prerequisites

 PC $> git clone https://github.com/STMicroelectronics/u-boot
  • from the Mainline U-Boot in official GIT repository [4] 
 PC $> git clone https://gitlab.denx.de/u-boot/u-boot.git

ARM cross compiler

A cross compiler [5] must be installed on your Host (X86_64, i686, ...) for the ARM targeted Device architecture. In addition, the $PATH and $CROSS_COMPILE environment variables must be configured in your shell.

You can use gcc for ARM, available in:

For example, to use gcc-arm-9.2-2019.12-x86_64-arm-none-linux-gnueabihf.tar.xz from arm, extract the toolchain in $HOME and update your environment with: 

 PC $> export PATH=$HOME/gcc-arm-9.2-2019.12-x86_64-arm-none-linux-gnueabihf/bin:$PATH
 PC $> export CROSS_COMPILE=arm-none-linux-gnueabihf-

For example, to use gcc-linaro-7.2.1-2017.11-x86_64_arm-linux-gnueabi.tar.xz
from https://releases.linaro.org/components/toolchain/binaries/7.2-2017.11/arm-linux-gnueabi/
Unzip the toolchain in $HOME and update your environment with: 

 PC $> export PATH=$HOME/gcc-linaro-7.2.1-2017.11-x86_64_arm-linux-gnueabi/bin:$PATH
 PC $> export CROSS_COMPILE=arm-linux-gnueabi-

Compilation

In the U-Boot source directory, select the <target> and the <device tree> for your configuration and then execute the make all command: 

 PC $> make <target>_defconfig
 PC $> make DEVICE_TREE=<device-tree> all

Optionally KBUILD_OUTPUT can be used to change the output directory to compile several targets or not to compile in the source directory. For example: 

 PC $> export KBUILD_OUTPUT=../build/basic

DEVICE_TREE can also be exported to your environment when only one board is supported. For example: 

 PC $> export DEVICE_TREE=stm32mp157c-ev1

Examples from STM32MP15 U-Boot:

Three configurations are supported for {{#vardefine:info|}}{{#vardefine:dev|MP15x lines}}{{#vardefine:info| More info.png}}STM32{{#var:dev}}{{#var:info}}:

  • stm32mp15_trusted_defconfig: trusted boot chain, U-Boot (without SPL) is unsecure and uses Secure monitor from TF-A
  • stm32mp15_optee_defconfig: trusted boot chain, U-Boot (without SPL) is unsecure and uses Secure monitor from SecureOS = OP-TEE
  • stm32mp15_basic_defconfig: basic boot chain, with an SPL as FSBL, U-BOOT is secure and installs monitor with PSCI

The board diversity is only managed with the device tree. 

 PC $> export KBUILD_OUTPUT=../build/trusted
 PC $> make stm32mp15_trusted_defconfig
 PC $> make DEVICE_TREE=stm32mp157c-<board> all

 PC $> export KBUILD_OUTPUT=../build/optee
 PC $> export DEVICE_TREE=stm32mp157c-<board>
 PC $> make stm32mp15_optee_defconfig
 PC $> make all

 PC $> make stm32mp15_basic_defconfig
 PC $> make DEVICE_TREE=stm32mp157c-<board>  all

Use help to list other targets: 

 PC $> make help

Output files

The resulting U-Boot files are located in your build directory (U-Boot or KBUILD_OUTPUT).

Two binary formats are used for stm32mp devices:

  • STM32 image format (*.stm32), managed by mkimage U-Boot tools and Signing_tool. It is requested by ROM code and TF-A (see STM32 header for binary files for details).
  • uImage (*.img) format, file including a U-Boot header, managed by SPL and U-Boot (for kernel load)

The U-Boot generated files are the following

  • For Trusted boot chain (TF-A is used as FSBL, with or without OP-TEE)
    • u-boot.stm32 : U-Boot binary with STM32 image header, loaded by TF-A
  • For Basic boot chain (SPL is used as FSBL)
    • u-boot-spl.stm32 : SPL binary with STM32 image header, loaded by ROM code
    • u-boot.img : U-Boot binary with uImage header, loaded by SPL

The files used to debug with gdb are

  • u-boot : elf file for U-Boot
  • spl/u-boot-spl : elf file for SPL

References

  1. https://www.denx.de/wiki/pub/U-Boot/MiniSummitELCE2013/2013-ELCE-U-Boot-Falcon-Boot.pdf
  2. https://en.wikipedia.org/wiki/Xconfig
  3. https://github.com/STMicroelectronics/u-boot
  4. https://gitlab.denx.de/u-boot/u-boot.git or https://github.com/u-boot/u-boot
  5. https://en.wikipedia.org/wiki/Cross_compiler

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取自“http://wiki.100ask.org/index.php?title=U-Boot_overview&oldid=7294