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419 lines
15 KiB
Markdown
419 lines
15 KiB
Markdown
# Coreboot on Lenovo X230
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This howto describes how to install Coreboot on a Lenovo X230.
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This document is still a draft and needs some cleanup.
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In order to flash the bios chip on the X230 you need special equipment to read and write to the two BIOS chips.
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An easy way which for an in-place flashiung procedure is to use a raspberry pi and a special flashing clip to read from and write to the Bios chip.
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The setup looks like this:
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Lenovo X230 (target) BIOS Chip <-- Pomodo Flash Clip <-- Raspberry Pi <-- Building Machine.
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Because you need to build coreboot and this takes a long time on a raspberry pi, this howto assumes that you have an additional laptop/PC which will be used as building machine.
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The building machine will compile the coreboot ROm file and the raspberry pi is only used to read and write from and to the target device.
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## Links
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I have looked at the following ressources to learn more about coreboot adn write this howto
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- https://www.coreboot.org/Board:lenovo/x230
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- https://github.com/bibanon/Coreboot-ThinkPads/wiki/Hardware-Flashing-with-Raspberry-Pi
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- [Coreboot on the ThinkPad X220 with a Raspberry Pi](https://tylercipriani.com/blog/2016/11/13/coreboot-on-the-thinkpad-x220-with-a-raspberry-pi/)
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- [Karl Cordes - How to flash Coreboot on X220](https://karlcordes.com/coreboot-x220/)
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Gute Anleitung für Anschluss FlashClip an Pi
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- [Johannes' Blog - Coreboot on X220](https://wej.k.vu/coreboot/coreboot_on_the_lenovo_thinkpad_x220/)
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- [Coreboot X230]( https://blog.noq2.net/corebooting-thinkpad-x230.html)
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- [Flashing Coreboot on the T430 with a Raspberry Pi](https://nm-projects.de/2017/08/flashing-coreboot-on-the-t430-with-a-raspberry-pi/)
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- https://kennyballou.com/blog/2017/01/coreboot-x230/
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Additional info has been provided by the Coreboot Mailinglist:
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- https://mail.coreboot.org/pipermail/coreboot/2017-September/085173.html
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- https://mail.coreboot.org/pipermail/coreboot/2017-September/085182.html
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- https://mail.coreboot.org/pipermail/coreboot/2017-September/085185.html
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## Hardware:
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the following parts are needed to build a Coreboot flashing devices:
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- Raspberry Pi 3 ~ 35 Eur
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https://www.amazon.de/dp/B01CD5VC92/
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- 32 GB SDCard ~ 17 Eur
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https://www.amazon.de/dp/B073S8LQSL/
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- Jumper Cables ~ 7 Eur
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https://www.amazon.de/dp/B072NSLB98/
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- Pomona 5250 8-Pin Flash Clip ~ 12 Eur
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https://www.digikey.de/product-detail/de/pomona-electronics/5250/501-1311-ND/745102
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## physical setup (FIXME!)
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the information how to connect the Pomodo Clip to the rapsberry pi has to be included here.
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## Procedure
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- Setting up Raspberry Pi
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- Install FlashROM
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- Connect Flash Clip to Raspberry Pi
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- Disassemble X230 Laptop
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- Backup existing ROM
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- Setting up Coreboot on building machine
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- Compile Coreboot
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- Configure Coreboot
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- Flash new ROM
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## Prepare Build machine
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You can use another Qubes Laptop as Building machine.
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1) Clone the Debian template
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```
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qvm-clone debian-9 t-coreboot
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```
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2) launch a terminal in this template an install the following packages
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```
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sudo apt-get install git wget build-essential gnat flex bison libncurses5-dev zlib1g-dev libfreetype6-dev unifont python3
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sudo apt-get build-dep grub
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```
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3) Create an AppVM bases on this template
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Important: increase private storage size, as the build process and the git repositories need some storage capacity.
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Example 10GB
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## Setting up Raspberry Pi
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1. Download Noobs
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2. Install Raspbian
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3. Enable SSH
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## Install FlashROM on Raspberry Pi
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Flashrom is used to read the current ROM from the Bios Chip and make a backup of it.
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It will also be used to flash the new coreboot Bios.
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1) Install build enviroment and dependencies for flashrom
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```
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sudo apt-get install libftdi1 libftdi-dev libusb-dev libpci-dev m4 bison flex libncurses5-dev libncurses5 build-essential pciutils usbutils libpci-dev libusb-dev libftdi1 libftdi-dev zlib1g-dev subversion libusb-1.0 gnat wget zlib1g-dev
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```
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Problem: some packackes could not be installed:
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[...]
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Package flex is not available, but is referred to by another package.
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This may mean that the package is missing, has been obsoleted, or
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is only available from another source
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[...]
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Solution:
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delete all files in /var/lib/apt/lists
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2) Download and install Flashrom
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```
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git clone https://github.com/flashrom/flashrom
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cd flashrom
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make
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sudo make install
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```
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3) Enable the SPI device on the Raspberry Pi.
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```
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sudo raspi-config
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# In the menu choose:
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# - 5 Interfacing Options Configure connections to peripherals
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# - P4 SPI Enable/Disable automatic loading of SPI kernel module
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# - Would you like the SPI interface to be enabled?
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# - Yes
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sudo reboot
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```
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4) Modprobe SPI driver
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```
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sudo modprobe spi_bcm2835
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sudo modprobe spidev
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```
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## Prepare Build machine (the AppVM NOT the template)
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### Setup Coreboot
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Cloning the coreboot git. and recursively clone the necessary other gits.
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```
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git clone --recursive https://github.com/coreboot/coreboot
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cd ~/coreboot/3rdparty
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git clone http://review.coreboot.org/p/blobs.git
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```
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### Setup Extraction Tool for binary blobs
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Build and install the extraction tool for the binary blobs.
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```
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cd ~/coreboot/util/ifdtool
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make
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sudo make install
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```
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## on Raspberry Pi
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read existing BIOS and transfer it to build machine
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1) Read upper bios chip (4MB)
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```
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pi@raspberrypi:~ $ flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=1000 -c "MX25L3205D/MX25L3208D" -r x230-bios-top1.bin
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flashrom p1.0-69-g3f7e341 on Linux 4.14.30-v7+ (armv7l)
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flashrom is free software, get the source code at https://flashrom.org
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Using clock_gettime for delay loops (clk_id: 1, resolution: 1ns).
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Found Macronix flash chip "MX25L3205D/MX25L3208D" (4096 kB, SPI) on linux_spi.
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Reading flash... done.
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```
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Repeat this two more times creating: x230-bios-top2.bin and x230-bios-top3.bin
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2) Read lower bios chip (8MB)
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```
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pi@raspberrypi:~ $ flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=1000 -r x230-bios-bottom1.bin
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flashrom p1.0-69-g3f7e341 on Linux 4.14.30-v7+ (armv7l)
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flashrom is free software, get the source code at https://flashrom.org
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Using clock_gettime for delay loops (clk_id: 1, resolution: 1ns).
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Found Eon flash chip "EN25QH64" (8192 kB, SPI) on linux_spi.
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Reading flash... done.
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```
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Repeat this 2 more times and create two more copies x230-bios-bottom2.bin and x230-bios-bottom3.bin
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3) verify that all files are identical
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for the top 4MB bios chip:
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```
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pi@raspberrypi:~ $ md5sum x230-bios-top?.bin
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54bfde566dffa17760a6115f27309681 x230-bios-top1.bin
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54bfde566dffa17760a6115f27309681 x230-bios-top2.bin
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54bfde566dffa17760a6115f27309681 x230-bios-top3.bin
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```
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for the lower 8MB bios chip:
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```
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pi@raspberrypi:~ $ md5sum x230-bios-bottom?.bin
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ac7dffb64f7d11ec9b13cc9449e48a64 x230-bios-bottom1.bin
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ac7dffb64f7d11ec9b13cc9449e48a64 x230-bios-bottom2.bin
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ac7dffb64f7d11ec9b13cc9449e48a64 x230-bios-bottom3.bin
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```
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## on build machine: copy ROM files from raspberry pi
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4) Copy the ROMs from raspberry pi to the "build machine"
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```
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user@my-coreboot:~/coreboot/ROM$ scp pi@192.168.200.107:~/x230-bios-* .
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pi@192.168.200.107's password:
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x230-bios-bottom1.bin 100% 8192KB 10.8MB/s 00:00
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x230-bios-top1.bin 100% 4096KB 11.1MB/s 00:00
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```
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5) Merge two files into one ROM file
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```
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cat x230-bios-bottom1.bin x230-bios-top1.bin > x230-bios.rom
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```
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6) move all rom files to ~/coreboot/ROM
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```
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mkdir ~/coreboot/ROM
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mv x230-* ~/coreboot/ROM
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```
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### Extract Blobs from exracted ROM
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```
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user@my-coreboot:~/coreboot/ROM$ cd ~/coreboot/ROM
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user@my-coreboot:~/coreboot/ROM$ ifdtool -x x230-bios.rom
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File x230-bios-bottom1.bin is 8388608 bytes
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Flash Region 0 (Flash Descriptor): 00000000 - 00000fff
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Flash Region 1 (BIOS): 00500000 - 00bfffff
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Error while writing: Success
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Flash Region 2 (Intel ME): 00003000 - 004fffff
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Flash Region 3 (GbE): 00001000 - 00002fff
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Flash Region 4 (Platform Data): 00fff000 - 00000fff (unused)
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```
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you will now find the following files:
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```
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user@my-coreboot:~/coreboot/ROM$ ls -la
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total 36872
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drwxr-xr-x 2 user user 4096 Apr 6 00:48 .
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drwxr-xr-x 10 user user 4096 Apr 6 00:43 ..
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-rw-r--r-- 1 user user 4096 Apr 6 00:48 flashregion_0_flashdescriptor.bin
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-rw-r--r-- 1 user user 7340032 Apr 6 00:48 flashregion_1_bios.bin
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-rw-r--r-- 1 user user 5230592 Apr 6 00:48 flashregion_2_intel_me.bin
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-rw-r--r-- 1 user user 8192 Apr 6 00:48 flashregion_3_gbe.bin
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-rw-r--r-- 1 user user 12582912 Apr 6 00:30 x230-bios.bin
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-rw-r--r-- 1 user user 8388608 Apr 5 23:38 x230-bios-bottom1.bin
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-rw-r--r-- 1 user user 4194304 Apr 5 23:38 x230-bios-top1.bin
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```
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## Extract VGA Blob
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https://www.coreboot.org/VGA_support#UEFI_Method
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```
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cd ~/coreboot
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sudo apt-get install qt5-default
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git clone http://github.com/LongSoft/UEFITool.git
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cd UEFITool
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qmake
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make
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```
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Start UEFITool
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```
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./UEFITool
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```
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File > Open BIOS Image File
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Open the ROM-file from the 4MB BIOS-Chip (x230-bios-top1.bin) or the merged ROM (x230-bios.bin)
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will generate the following messages:
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"parseVolume: unknown file system FFF12B8D-7696-4C8B-A985-2747075B4F50
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parseBios: volume size stored in header 61000h (397312) differs from calculated using block map 40000h (262144)
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parseVolume: unknown file system 00504624-8A59-4EEB-BD0F-6B36E96128E0
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parseBios: volume size stored in header 2F000h (192512) differs from calculated using block map 30000h (196608)
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parseFile: invalid data checksum"
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- Hit CTRL+F (Search...), 3rd Tab (Text)
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- Search for: VGA Compatible BIOS
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(Uncheck Unicode)
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- Will show the following message in the lower part of the window:
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ASCII text "VGA Compatible BIOS" found in Raw section at offset 22h
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- Double click on the line in the message windows which bring you to the raw section
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- Right Click on "Raw section" and choose "Extract Body"
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- Save file as ~/coreboot/ROM/vga.rom
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## Configure and build Coreboot
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1) Launch Configuration menu
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```
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cd ~/coreboot/
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make nconfig
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```
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Enter to open Submenu, Escape to switch back.
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F6 saves config to /home/user/coreboot/.config
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F9 quits config menu
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FIXME: needs more information about which options to choose and how to import the Blobs
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2) build coreboot using 7 from total 8 cores on my W540 (adapt this to your possibilities)
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```
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make crossgcc-i386 CPUS=7
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make iasl
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make
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```
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## Split coreboot ROM
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after building coreboot you need to the 12mb file into a 4mb and 8mb file.
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```
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mkdir ~/coreboot/ROM-ready
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# Split first 8MB of coreboot.rom (bottom-chip)
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dd if=~/coreboot/build/coreboot.rom of=~/coreboot/ROM-ready/x230-coreboot-8mb.rom bs=1024 count=$[1024*8] skip=0
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# Split last 4MB of coreboot.rom (top-chip)
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dd if=~/coreboot/build/coreboot.rom of=~/coreboot/ROM-ready/x230-coreboot-4mb.rom bs=1024 count=$[1024*4] skip=$[1024*8]
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```
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## Copy ROM to raspberry pi and flash
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Transfer the two new ROM files over to the raspberry pi
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```
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scp x230-coreboot-* pi@192.168.200.107:~/
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```
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I have moved the coreboot-ROM files to a new directory ~/ROM-ready on the raspberry pi
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Logon to the pi and flash both chips:
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```
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# write top chip (4MB)
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pi@raspberrypi:~/ROM-ready $ sudo flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=1000 -c "MX25L3205D/MX25L3208D" -w x230-coreboot-4mb.rom
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flashrom p1.0-69-g3f7e341 on Linux 4.14.30-v7+ (armv7l)
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flashrom is free software, get the source code at https://flashrom.org
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Using clock_gettime for delay loops (clk_id: 1, resolution: 1ns).
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Found Macronix flash chip "MX25L3205D/MX25L3208D" (4096 kB, SPI) on linux_spi.
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Reading old flash chip contents... done.
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Erasing and writing flash chip... Erase/write done.
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Verifying flash... VERIFIED.
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# write bottom chip (8MB)
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pi@raspberrypi:~/ROM-ready $ sudo flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=1000 -w x230-coreboot-8mb.rom
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flashrom p1.0-69-g3f7e341 on Linux 4.14.30-v7+ (armv7l)
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flashrom is free software, get the source code at https://flashrom.org
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Using clock_gettime for delay loops (clk_id: 1, resolution: 1ns).
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Found Eon flash chip "EN25QH64" (8192 kB, SPI) on linux_spi.
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Reading old flash chip contents... done.
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Erasing and writing flash chip... Erase/write done.
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Verifying flash... VERIFIED.
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```
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## Test drive
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now it is time to cross fingers and try if you was able to flash coreboot.
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Remove the Pomodo-Clip, put your keyboard back, put your battery in and power on.
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In case you run into any problems, you can always reflash your stock rom.
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## From my older notes (FIXME!)
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(this needs to be rewritten/updated to the above procedure)
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--- on your raspberry pi ---
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0) Put External Flash Clip, female jumper cables and Raspberry pi together
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(kind of a lego thing)
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1) Install Raspberian on Pi using Noobs
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2) Update Pi and install additional packages including 'flashrom'
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3) take keyboard and palmrest of your "coreboot target laptop" (target) off
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to access the BIOS Chip(s)
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4) Connect the BIOS-Clip to BIOS-chips and read the content from your pi
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(x230-default-part2-4mb.rom / x230-default-part2-8mb.rom)
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5) merge the two files into one 12 MB ROM file
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(x230-default-12mb.rom)
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--- on your build laptop ---
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6) Copy all three files to your "build laptop" (laptop)
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Build Laptop must run Linux, this howto assumes you are using Ubuntu 16.04.3 LTS
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(could also be installed on an USB thumbdrive or external harddrive)
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7) Download Coreboot from GIT
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7) Install UEFITool on laptop
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8) Extract VGA BLOB from the x230-default-12mb.rom file
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save the file in the coreboot/blobs directory
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(./coreboot/3rdparty/blobs/mainboard/lenovo/x230/pci8086,0166.rom)
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9) Build Coreboot Toolchain
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10) Compile ifdtool located in the coreboot/utils directory
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11) Extract BLOBS from x230-default-12mb.rom using ifdtool
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save the files in the coreboot/blobs directory
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(./coreboot/3rdparty/blobs/mainboard/lenovo/x230/descriptor.bin)
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(./coreboot/3rdparty/blobs/mainboard/lenovo/x230/me.bin)
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(./coreboot/3rdparty/blobs/mainboard/lenovo/x230/gbe.bin)
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11b) [Optionally] Use ME_Cleaner on me.bin file )
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(also it seems that ME_Cleaner is included in Coreboot:
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Coreboot nconfig:
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Chipset > Add Intel descriptor.bin file > Add Intel ME/TXE firmware
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--> Strip down the Intel ME/TXE firmware )
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I've choosen to leave the me.bin as is until everything is working.
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12) Configure Coreboot (make nconfig)
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choose parameters/features and add the 4 binary blobs (step 8 and 11)
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13) build coreboot image
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(./coreboot/build/coreboot.rom)
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14) Split coreboot.rom into two separate files to flash them to your 2 chips
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(x230-coreboot-8mb.rom and x230-coreboot-4mb.rom)
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15) copy both files to your Raspberry Pi
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--- on your Raspberry pi ---
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16) flash both files using flashrom again
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17) Reboot target laptop
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18) should boot up with coreboot.
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