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#
# Copyright (C) 2014, Simon Glass <sjg@chromium.org>
# Copyright (C) 2014, Bin Meng <bmeng.cn@gmail.com>
#
# SPDX-License-Identifier: GPL-2.0+
#
U-Boot on x86
=============
This document describes the information about U-Boot running on x86 targets,
including supported boards, build instructions, todo list, etc.
Status
------
U-Boot supports running as a coreboot [1] payload on x86. So far only Link
(Chromebook Pixel) has been tested, but it should work with minimal adjustments
on other x86 boards since coreboot deals with most of the low-level details.
U-Boot also supports booting directly from x86 reset vector without coreboot,
aka raw support or bare support. Currently Link and Intel Crown Bay board
support running U-Boot 'bare metal'.
As for loading OS, U-Boot supports directly booting a 32-bit or 64-bit Linux
kernel as part of a FIT image. It also supports a compressed zImage.
Build Instructions
------------------
Building U-Boot as a coreboot payload is just like building U-Boot for targets
on other architectures, like below:
$ make coreboot-x86_defconfig
$ make all
Note this default configuration will build a U-Boot payload for the Link board.
To build a coreboot payload against another board, you can change the build
configuration during the 'make menuconfig' process.
x86 architecture --->
...
(chromebook_link) Board configuration file
(chromebook_link) Board Device Tree Source (dts) file
(0x19200000) Board specific Cache-As-RAM (CAR) address
(0x4000) Board specific Cache-As-RAM (CAR) size
Change the 'Board configuration file' and 'Board Device Tree Source (dts) file'
to point to a new board. You can also change the Cache-As-RAM (CAR) related
settings here if the default values do not fit your new board.
Building ROM version of U-Boot (hereafter referred to as u-boot.rom) is a
little bit tricky, as generally it requires several binary blobs which are not
shipped in the U-Boot source tree. Due to this reason, the u-boot.rom build is
not turned on by default in the U-Boot source tree. Firstly, you need turn it
on by enabling the ROM build:
$ export BUILD_ROM=y
This tells the Makefile to build u-boot.rom as a target.
Link-specific instructions:
First, you need the following binary blobs:
* descriptor.bin - Intel flash descriptor
* me.bin - Intel Management Engine
* mrc.bin - Memory Reference Code, which sets up SDRAM
* video ROM - sets up the display
You can get these binary blobs by:
$ git clone http://review.coreboot.org/p/blobs.git
$ cd blobs
Find the following files:
* ./mainboard/google/link/descriptor.bin
* ./mainboard/google/link/me.bin
* ./northbridge/intel/sandybridge/systemagent-ivybridge.bin
The 3rd one should be renamed to mrc.bin.
As for the video ROM, you can get it here [2].
Make sure all these binary blobs are put in the board directory.
Now you can build U-Boot and obtain u-boot.rom:
$ make chromebook_link_defconfig
$ make all
Intel Crown Bay specific instructions:
U-Boot support of Intel Crown Bay board [3] relies on a binary blob called
Firmware Support Package [4] to perform all the necessary initialization steps
as documented in the BIOS Writer Guide, including initialization of the CPU,
memory controller, chipset and certain bus interfaces.
Download the Intel FSP for Atom E6xx series and Platform Controller Hub EG20T,
install it on your host and locate the FSP binary blob. Note this platform
also requires a Chipset Micro Code (CMC) state machine binary to be present in
the SPI flash where u-boot.rom resides, and this CMC binary blob can be found
in this FSP package too.
* ./FSP/QUEENSBAY_FSP_GOLD_001_20-DECEMBER-2013.fd
* ./Microcode/C0_22211.BIN
Rename the first one to fsp.bin and second one to cmc.bin and put them in the
board directory.
Now you can build U-Boot and obtain u-boot.rom
$ make crownbay_defconfig
$ make all
Test with coreboot
------------------
For testing U-Boot as the coreboot payload, there are things that need be paid
attention to. coreboot supports loading an ELF executable and a 32-bit plain
binary, as well as other supported payloads. With the default configuration,
U-Boot is set up to use a separate Device Tree Blob (dtb). As of today, the
generated u-boot-dtb.bin needs to be packaged by the cbfstool utility (a tool
provided by coreboot) manually as coreboot's 'make menuconfig' does not provide
this capability yet. The command is as follows:
# in the coreboot root directory
$ ./build/util/cbfstool/cbfstool build/coreboot.rom add-flat-binary \
-f u-boot-dtb.bin -n fallback/payload -c lzma -l 0x1110000 -e 0x1110015
Make sure 0x1110000 matches CONFIG_SYS_TEXT_BASE and 0x1110015 matches the
symbol address of _start (in arch/x86/cpu/start.S).
If you want to use ELF as the coreboot payload, change U-Boot configuration to
use CONFIG_OF_EMBED instead of CONFIG_OF_SEPARATE.
CPU Microcode
-------------
Modern CPUs usually require a special bit stream called microcode [5] to be
loaded on the processor after power up in order to function properly. U-Boot
has already integrated these as hex dumps in the source tree.
Driver Model
------------
x86 has been converted to use driver model for serial and GPIO.
Device Tree
-----------
x86 uses device tree to configure the board thus requires CONFIG_OF_CONTROL to
be turned on. Not every device on the board is configured via device tree, but
more and more devices will be added as time goes by. Check out the directory
arch/x86/dts/ for these device tree source files.
Useful Commands
---------------
In keeping with the U-Boot philosophy of providing functions to check and
adjust internal settings, there are several x86-specific commands that may be
useful:
hob - Display information about Firmware Support Package (FSP) Hand-off
Block. This is only available on platforms which use FSP, mostly
Atom.
iod - Display I/O memory
iow - Write I/O memory
mtrr - List and set the Memory Type Range Registers (MTRR). These are used to
tell the CPU whether memory is cacheable and if so the cache write
mode to use. U-Boot sets up some reasonable values but you can
adjust then with this command.
TODO List
---------
- Audio
- Chrome OS verified boot
- SMI and ACPI support, to provide platform info and facilities to Linux
References
----------
[1] http://www.coreboot.org
[2] http://www.coreboot.org/~stepan/pci8086,0166.rom
[3] http://www.intel.com/content/www/us/en/embedded/design-tools/evaluation-platforms/atom-e660-eg20t-development-kit.html
[4] http://www.intel.com/fsp
[5] http://en.wikipedia.org/wiki/Microcode