lbwww/site/docs/hardware/hp8200sff.md

10 KiB

HP Elite 8200 SFF is a small-form-factor desktop of Intel Sandybridge platform which you can read more about here:

https://support.hp.com/gb-en/product/hp-compaq-8200-elite-small-form-factor-pc/5037931

MT is an identical board with a larger chassis and more powerful power supply:

https://support.hp.com/gb-en/product/hp-compaq-8200-elite-desktop-pc-series/5037940

Here's the Technical Reference Manual. This system supports Ivy Bridge processors too. The original BIOS won't even POST with those, but with Libreboot they work fully.

Installation of Libreboot

You can actually just compile the Libreboot ROM for this, and flash the entire ROM.

Internal flashing from OEM BIOS is possible by setting a jumper on the board. Step by step instructions for this are below.

The coreboot project proper has technical details on why this works if you are interested. It also has external flashing instructions if you need to recover from an unbootable BIOS:

https://doc.coreboot.org/mainboard/hp/compaq_8200_sff.html

You can build the images for it in Libreboot like so:

./build roms hp8200sff_8mb

More information about building ROM images can be found in the build guide.

If you plan on using a graphics card (other than the integrated graphics of your CPU), choose one of the files which name contains both "seabios" and "txtmode".

This is a Sandybridge board which means that a neutered ME image is required if you wish to flash the ME region. Libreboot's build system automatically downloads, neuters (using me_cleaner) and inserts this if compiling from source.

If you're using Libreboot release ROM images, the ME image has been scrubbed and you must re-insert it. Use the information on this guide to know how to do that:

Insert vendor files on Intel Sandybridge/Ivybridge/Haswell platforms

You may also wish to change the default MAC address if you're planning to use the onboard Intel Gigabit Ethernet. You can do this using the information in the same guide linked above, or read the nvmutil manual:

Modify MAC addresses with nvmutil.

Internal flashing from vendor BIOS

The vendor BIOS imposes write-protections in the Flash Descriptor and runtime. However, the flash descriptor can be bypassed by bridging a jumper and the runtime protections only apply to a fixed address block. Since neutering the Management Engine frees up a lot of space, we can just install an intermediate Libreboot image there. This removes all write-protections so has the same end result as external flashing: a completely unlocked system.

Power off the computer. Remove the side panel. Near the back USB ports find the jumper labelled FDO.

Location of the FDO jumper

You need to short the two pins circled. Use a jumper block if you have one but a screwdriver will do the job fine too. Hold the tip between the pins until you can see the normal BIOS boot screen.

Boot into an OS supported by flashprog. On Linux, make sure you add the kernel parameter iomem=relaxed which disables memory protections that prevent BIOS flashing.

NOTE: Libreboot standardises on flashprog now, as of 27 January 2024, which is a fork of flashrom.

Now, run this command:

flashprog -p internal -c MX25L6406E/MX25L6408E

The output should contain the text "The Flash Descriptor Override Pin-Strap is set". If it doesn't, start again from the beginning.

Now build the 4 MiB Libreboot image.

./build roms hp8200sff_4mb

More information about building ROM images can be found in the build guide.

Also build ifdtool. It will be needed soon.

cd src/coreboot/default/util/ifdtool
make
sudo make install

Now choose the image you want from bin/hp8200sff_4mb. We'll refer to it as libreboot4.rom. We need to pad it to 8 MiB:

dd if=/dev/zero bs=4M count=1 >> libreboot4.rom

Flash the Libreboot image with a tweaked layout:

ifdtool libreboot4.rom -f layout
flashprog -p internal -c MX25L6406E/MX25L6408E -w libreboot4.rom -l layout -i fd -i gbe -i bios -i me

Power off the computer. Make sure to power off, rebooting is not enough!

Power on the computer. Now we can flash the full 8 MiB image. Boot to an OS with flashprog again. On linux, remember the iomem=relaxed kernel parameter.

NOTE: Libreboot standardises on flashprog now, as of 27 January 2024, which is a fork of flashrom.

Pick a Libreboot image of your choice from bin/hp8200sff_8mb or from a release archive. We'll refer to it as libreboot8.rom.

flashprog -p internal -c MX25L6406E/MX25L6408E -w libreboot8.rom

Power cycle the computer again.

HP 6200 Pro Business PC

According to this page from the vendor, HP BIOS updates are the same on both the 8200 SFF Elite and 6200 Pro Business desktop PCs; therefore, we believe that the Libreboot config for 8200 SFF will also work on 6200 Pro Business PCs. That page is here: https://support.hp.com/fi-fi/drivers/selfservice/swdetails/hp-compaq-8200-elite-small-form-factor-pc/5037931/swItemId/vc-229778-2

The config for this board is courtesy of Riku Viitanen (Riku_V on Libreboot IRC), who tested and confirmed the following functionality:

  • Sandy Bridge (i5-2400) and Ivy Bridge (i5-3570S) CPUs
  • 4x8 GB RAM (Sandy Bridge: 1333MHz, Ivy Bridge: 1600MHz)
  • PS/2 keyboard and mouse
  • USB keyboard (a bit laggy on GRUB)
  • Boot from USB and DVD
  • Gigabit ethernet
  • VGA and DisplayPort (Intel graphics), with libgfxinit (native video init)
  • Headphone output, PC speaker
  • S3 suspend, wake on USB keyboard
  • lm_sensors outputs CPU core temperatures only
  • Both PCIe x16 slots, external GPU works with SeaBIOS
  • PCI
  • SATA
  • USB ports
  • Serial port (RS-232)
  • Wake on LAN

At the time of adding this board to Libreboot, the following is untested:

  • Parallel port (internal header on the board)
  • Floppy drive. The case has a spot for it, but I can't find the header (P10).

According to the initial coreboot port from 2018, the following also works:

  • EHCI debug (not enabled by Libreboot configs)
  • Native (libre) raminit with up to four DIMM modules (also tested by Riku and confirmed working, with 32GB RAM installed as 4x8GB)

TPM

According to git logs, TPM should work, and a commit from 2018 at revision ID 39d0e2a2cf45e28cdddd0fe0c88f94ce527ab1ef in coreboot makes the TPM visible to operating systems.

PSU Fan control

See coreboot commit 9bd601584350f51f112b15a7369f9aa82f1d0919 - labelled by commit message superio/nuvoton/npcd378: Add PSU fan control.

Per this commit, SuperIO-based fan control is supported on HP Elite 8200 SFF.

TODO for testing the above is here:
https://codeberg.org/libreboot/lbmk/issues/9

This is controlled via nvramtool to modify the value in sram. See:

  • psu_fan_lvl=3 <-- default setting in coreboot, and Libreboot.

Other values possible: from reading the source code, it is implied that the number can be between 0 and 7. If the value is set higher than 7, it will default back to 3.

Libreboot locks CMOS/NVRAM settings, but you can change the default setting in the ROM by using the -C option in nvramtool. You can find this under the directory src/coreboot/default/util/nvramtool when downloading coreboot inside of lbmk by running the command:

./update trees -f coreboot default

Go in there and type make to build nvramtool. Simply run nvramtool without arguments, and it will show a list of options.