Martin Kepplinger 592a4b5fd3 | 6 years ago | |
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06-3a-09 | 6 years ago | |
533ea7adb5_i5.config | 6 years ago | |
LICENSE | 6 years ago | |
NEWS | 6 years ago | |
README.md | 6 years ago | |
intel-ucode.license | 6 years ago | |
pci8086,0166.rom | 6 years ago |
pre-built coreboot images and documentation on how to flash them for the Thinkpad X230
These images
See our releases
Either when
Download a released image, connect your hardware SPI flasher to the "upper" 4MB chip in your X230, and do
flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=128 -w x230_coreboot_seabios_example_top.rom
Enter Lenovo's BIOS with F1 and check the embedded controller (EC) version to be 1.14 and upgrade using the latest bootable CD if it isn't. The EC cannot be upgraded when coreboot is installed. (In case a newer version should ever be available (I doubt it), you could temporarily flash back your original Lenovo BIOS image)
The Intel Management Engine resides on the 8MB chip. We don't need to touch it for coreboot-upgrades in the future, but while opening up the Thinkpad anyways, we can save it and run ifdtool and me_cleaner on it:
flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=128 -c "MX25L3206E/MX25L3208E" -r ifdmegbe.rom
flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=128 -c "MX25L3206E/MX25L3208E" -r ifdmegbe2.rom
diff ifdmegbe.rom ifdmegbe2.rom
git clone https://github.com/corna/me_cleaner.git && cd me_cleaner
./me_cleaner.py -S -O ifdmegbe_meclean.rom ifdmegbe.rom
ifdtool -u ifdmegbe_meclean.rom
flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=128 -c "MX25L3206E/MX25L3208E" -w ifdmegbe_meclean.rom.new
(internally, memory of the two chips is mapped together, the 8MB being the lower part, but we can essientially ignore that)
For the first time, we have to save the original image, just like we did with the 8MB chip. It's important to keep this image somewhere safe:
flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=128 -r top1.rom
flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=128 -r top2.rom
diff top1.rom top2.rom
When upgrading to a new version, for example when a new SeaBIOS version is available, only the "upper" 4MB chip has to be written.
Download the latest release image we provide here and flash it:
flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=128 -w x230_coreboot_seabios_example_top.rom
We flash externally, using a "Pomona 5250 8-pin SOIC test clip". You'll find one easily. This is how the X230's SPI connection looks on both chips:
Screen (furthest from you)
__
MOSI 5 --| |-- 4 GND
CLK 6 --| |-- 3 N/C
N/C 7 --| |-- 2 MISO
VCC 8 --|__|-- 1 CS
Edge (closest to you)
We run Raspbian and have the following setup
Serial connection using a "USB to Serial" Adapter and picocom or minicom
in the SD Cards's /boot/config.txt
file enable_uart=1
and dtparam=spi=on
For flashrom we put spi_bcm2835
and spidev
in /etc/modules
Connect to a wifi or to network over ethernet.
install flashrom
connect the Clip to the Raspberry Pi 3:
Edge of pi (furthest from you)
L CS
E |
F +---------------------------------------------------------------------------------+
T | x x x x x x x x x x x x x x x x x x x x |
| x x x x x x x x x x x x x x x x x x x x |
E +----------------------------------^---^---^---^-------------------------------^--+
D | | | | |
G 3.3V MOSIMISO| GND
E (VCC) CLK
Body of Pi (closest to you)
Now you should be able to copy the image over to your Rasperry Pi and run the
mentioned flashrom
commands.
If using a Diolan DLN2 as USB-SPI Adapter, we can
stay on the host system to run flashrom. Make sure you have the Linux driver
configured in, i.e. CONFIG_SPI_DLN2=m
. Connect the Pomona Clip according to the
DLN2 Connectors.
MOSI, MISO, CS, CLK and VCC are Pin 1, 3, 5, 7, 9 on the J4 SPI Connector. Set JP3
to 3,3V.
TODO
Everything necessary to build coreboot is included in this project and building coreboot is not hard at all. Please refer to coreboot's own documentation.
When building, testing and doing a release here, we always try to upload our result to coreboot's board status project.
On the X230, there are 2 physical "BIOS" chips. The "upper" 4MB one holds the actual bios we can generate using coreboot, and the "lower" 8MB one holds the rest that you can modify yourself once, if you like, but strictly speaking, you don't need to touch it at all. What's this "rest"? Mainly a tiny binary used by the Ethernet card and the Intel Management Engine.