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  1. # coreboot-x230
  2. pre-built [coreboot](https://www.coreboot.org/) images and documentation on
  3. how to flash them for the
  4. [Thinkpad X230](https://pcsupport.lenovo.com/en/products/laptops-and-netbooks/thinkpad-x-series-laptops/thinkpad-x230).
  5. SeaBIOS is used as coreboot payload to be compatible with Windows and Linux
  6. systems.
  7. ## Latest release (config overview and version info)
  8. * coreboot-x230 0.0.5 - see our [release page](https://github.com/merge/coreboot-x230/releases)
  9. * Lenovo's proprietary VGA BIOS ROM is executed in "secure" mode
  10. ### coreboot
  11. * We simply take coreboot's current state in it's master branch at the time we build a release image.
  12. That's the preferred way to use coreboot. The git revision we use is always included in the release.
  13. ### Intel microcode
  14. * revision `1f` from 2018-02-07 (Intel package [20180312](https://downloadcenter.intel.com/download/27591) not yet in coreboot upstream) under [Intel's license](LICENSE.microcode)
  15. ### SeaBIOS
  16. * version [1.11.1](https://seabios.org/Releases) from 2018-03-19 (part of coreboot upstream)
  17. ## table of contents
  18. * [TL;DR](#tl-dr)
  19. * [Flashing for the first time](#flashing-for-the-first-time)
  20. * [How to update](#how-to-update)
  21. * [When do we do a release?](#when-do-we-do-a-release)
  22. * [How we build](#how-we-build)
  23. * [Why does this work](#why-does-this-work)
  24. * [Alternatives](#alternatives)
  25. ## TL;DR
  26. Download a released image, connect your hardware SPI flasher to the "upper"
  27. 4MB chip in your X230, and do
  28. flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=128 -c "MX25L3206E" -w x230_coreboot_seabios_example_top.rom
  29. where `linux_spi:` is the example of using your SPI pins of, for example, a
  30. Raspberry Pi. A [Bus Pirate](http://dangerousprototypes.com/docs/Bus_Pirate) with
  31. `buspirate_spi` or others connected to the host directly should be fine too.
  32. ## Flashing for the first time
  33. Especially for the first time, you must flash externally. See below for the details
  34. for using a Rapberry Pi, for example.
  35. ### flashrom chip config
  36. We use [flashrom](https://flashrom.org/) for flashing. Run `flashrom -p <your_hardware>`
  37. (for [example](#how-to-flash) `flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=128` for the
  38. Raspberry Pi) to let flashrom detect the chip. It will probably list a few you need to choose
  39. from when flashing (by adding `-c "<chipname>"`). While there might be specific examples
  40. in the commands below, please review the chip model for your device. In case you are
  41. unsure what to specify, here's some examples we find out there:
  42. #### 4MB chip
  43. * `MX25L3206E` seems to mostly be in use
  44. #### 8MB chip
  45. * `MX25L3206E/MX25L3208E` is seen working with various X230 models.
  46. * `MX25L6406E/MX25L6408E` is used in [this guide](https://github.com/mfc/flashing-docs/blob/master/walkthrough%20for%20flashing%20heads%20on%20an%20x230.md#neutering-me)
  47. * `EN25QH64` is used sometimes
  48. ### EC firmware (optional)
  49. Enter Lenovo's BIOS with __F1__ and check the embedded controller (EC) version to be
  50. __1.14__ and upgrade using
  51. [the latest bootable CD](https://support.lenovo.com/at/en/downloads/ds029188)
  52. if it isn't. The EC cannot be upgraded when coreboot is installed. (In case a newer
  53. version should ever be available (I doubt it), you could temporarily flash back your
  54. original Lenovo BIOS image)
  55. ### ifd unlock and me_cleaner: the 8MB chip
  56. The Intel Management Engine resides on the 8MB chip (at the bottom, closer to
  57. you). We don't need to touch it
  58. for coreboot-upgrades in the future, but to enable internal flashing, we need
  59. to unlock it once.
  60. We run [ifdtool](https://github.com/coreboot/coreboot/tree/master/util/ifdtool)
  61. and, while we are at it, [me_cleaner](https://github.com/corna/me_cleaner) on it:
  62. We support using a RPi, see below for the connection details.
  63. Move the release-tarball to the RPi (USB Stick or however) and unpack it
  64. (to the current directory and change into it):
  65. mkdir tarball_extracted
  66. tar -xf <tarball>.tar.xz -C tarball_extracted
  67. cd tarball_extracted
  68. And finally unlock the 8M chip by using the included script (be patient):
  69. sudo ./flashrom_rpi_bottom_unlock.sh -m -c <chipname> -k <backup.bin>
  70. That's it. Keep the backup safe.
  71. when updating to a new release, you don't have to disasseble your Thinkpad
  72. and can flash internally (at your own risk), see below.
  73. #### background (just so you know)
  74. The `-m` option above also runs `me_cleaner -S` before flashing back.
  75. If you don't use a RPi, change the flashrom programmer to your needs:
  76. flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=128 -c "MX25L6406E/MX25L6408E" -r ifdmegbe.rom
  77. flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=128 -c "MX25L6406E/MX25L6408E" -r ifdmegbe2.rom
  78. diff ifdmegbe.rom ifdmegbe2.rom
  79. git clone https://github.com/corna/me_cleaner.git && cd me_cleaner
  80. ./me_cleaner.py -S -O ifdmegbe_meclean.rom ifdmegbe.rom
  81. ifdtool -u ifdmegbe_meclean.rom
  82. flashrom -p linux_spi:dev=/dev/spidev0.0,spispeed=128 -c "MX25L6406E/MX25L6408E" -w ifdmegbe_meclean.rom.new
  83. ### BIOS: the 4MB chip
  84. (internally, memory of the two chips is mapped together, the 8MB being the lower
  85. part, but we can essientially ignore that). Again, using a RPi is supported
  86. here. We assume you have the unpacked release tarball ready, see above. Use
  87. the following included script:
  88. sudo ./flashrom_rpi_top_write.sh -i x230_coreboot_seabios_<hash>_top.rom -c <chipname> -k <backup>
  89. That's it. Keep the backup safe.
  90. ## How to update
  91. When __upgrading__ to a new release, only the "upper" 4MB chip has to be written.
  92. Download the latest release image we provide and flash it:
  93. ### Example: Raspberry Pi 3
  94. Here you'll flash externally, using a "Pomona 5250 8-pin SOIC test clip". You'll find
  95. one easily. This is how the X230's SPI connection looks on both chips:
  96. Screen (furthest from you)
  97. __
  98. MOSI 5 --| |-- 4 GND
  99. CLK 6 --| |-- 3 N/C
  100. N/C 7 --| |-- 2 MISO
  101. VCC 8 --|__|-- 1 CS
  102. Edge (closest to you)
  103. and with our release tarball unpacked, the command you need looks like so:
  104. flashrom_rpi_top_write.sh -i x230_coreboot_seabios_<release>_top.rom -c <chipname>
  105. We run [Raspbian](https://www.raspberrypi.org/downloads/raspbian/)
  106. and have the following setup
  107. * [Serial connection](https://elinux.org/RPi_Serial_Connection) using a "USB to Serial" UART Adapter and picocom or minicom
  108. * Yes, in this case you need a second PC connected to the RPi over UART
  109. * in the SD Cards's `/boot/config.txt` file `enable_uart=1` and `dtparam=spi=on`
  110. * [For flashrom](https://www.flashrom.org/RaspberryPi) we put `spi_bcm2835` and `spidev` in /etc/modules
  111. * [Connect to a wifi](https://www.raspberrypi.org/documentation/configuration/wireless/wireless-cli.md) or to network over ethernet to install `flashrom`
  112. * only use the ...top.rom release file
  113. * connect the Clip to the Raspberry Pi 3 (there are [prettier images](https://github.com/splitbrain/rpibplusleaf) too:
  114. Edge of pi (furthest from you)
  115. (UART)
  116. L GND TX RX CS
  117. E | | | |
  118. F +---------------------------------------------------------------------------------+
  119. T | x x x x x x x x x x x x x x x x x x x x |
  120. | x x x x x x x x x x x x x x x x x x x x |
  121. E +----------------------------------^---^---^---^-------------------------------^--+
  122. D | | | | |
  123. G 3.3V MOSIMISO| GND
  124. E (VCC) CLK
  125. Body of Pi (closest to you)
  126. Now you should be able to copy the image over to your Rasperry Pi and run the
  127. mentioned `flashrom` commands. One way to copy, is convertig it to ascii using
  128. `uuencode` (part of Debian's sharutils package) described below. This is a very
  129. direct, shady and slow way to copy file. Another way is of course using a USB
  130. Stick or scp :) (but you need even more hardware or a network).
  131. (convert)
  132. host$ uuencode coreboot.rom coreboot.rom.ascii > coreboot.rom.ascii
  133. (transfer)
  134. rpi$ cat > coreboot.rom.ascii
  135. host$ pv coreboot.rom.ascii > /dev/ttyUSBX
  136. (wait)
  137. rpi$ (CTRL-D)
  138. (convert back)
  139. rpi$ uudecode -o coreboot.rom coreboot.rom.ascii
  140. (verify)
  141. host$ sha1sum coreboot.rom
  142. rpi$ sha1sum coreboot.rom
  143. ![Raspberry Pi at work](rpi_clip.jpg)
  144. ### Example: internal
  145. CAUTION: THIS IS NOT ENCOURAGED
  146. * Only for updating! You have to have your 8MB chip flashed externally using
  147. our `flashrom_rpi_bottom_unlock.sh` script (`ifdtool -u`) before this, once
  148. * very convenient, but according to the [flashrom manpage](https://manpages.debian.org/stretch/flashrom/flashrom.8.en.html) this is very dangerous!
  149. * Boot Linux with the `iomem=relaxed` boot parameter (for example set in /etc/default/grub)
  150. * download the latest release tarball (4MB "top" BIOS image is included) and extract it
  151. * run `prepare_internal_flashing.sh` for generating all necessary files and instructions
  152. ## When do we do a release?
  153. Either when
  154. * There is a new SeaBIOS release,
  155. * There is a new Intel microcode release (for our CPU model),
  156. * There is a coreboot issue that affects us, or
  157. * We change the config
  158. ## How we build
  159. * Everything necessary to build coreboot (while only the top 4MB are usable of course) is included here
  160. * The task of [building coreboot](https://www.coreboot.org/Build_HOWTO) is not too difficult
  161. * When doing a release here, we always try to upload to coreboot's [board status project](https://www.coreboot.org/Supported_Motherboards)
  162. * If we add out-of-tree patches, we always [post them for review](http://review.coreboot.org/) upstream
  163. ## Why does this work?
  164. On the X230, there are 2 physical "BIOS" chips. The "upper" 4MB
  165. one holds the actual bios we can generate using coreboot, and the "lower" 8MB
  166. one holds the rest that you can [modify yourself once](#flashing-for-the-first-time),
  167. if you like, but strictly speaking, you
  168. [don't need to touch it at all](https://www.coreboot.org/Board:lenovo/x230#Building_Firmware).
  169. What's this "rest"?
  170. Mainly a tiny binary used by the Ethernet card and the Intel Management Engine.
  171. ## Alternatives
  172. * [Heads](https://github.com/osresearch/heads/releases) also releases pre-built
  173. flash images for the X230 - with __way__ more sophisticated functionality.