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NOTE: The same image for W541 also works on W541, as it’s the exact same mainboard.

This laptop is available to buy with Libreboot pre-installed: https://minifree.org/product/libreboot-w541/

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

PLEASE READ THESE INSTRUCTIONS BEFORE INSTALLING, OR YOU MIGHT BRICK YOUR MACHINE: SAFETY PRECAUTIONS

Read the Ivybridge/Haswell common guide if you want more information. All of the following instructions assume that you’ve cloned lbmk and are operating from the root of that project. To do so, run

git clone https://codeberg.org/libreboot/lbmk
cd lbmk

You can now follow the rest of the instructions.

You must patch the release rom with the necessary vendor files and then flash it to your board.

Lbmk includes a script that will automatically inject the necessary files into a rom file. The script can determine the board automatically if you have not changed the name, but you can also manually set the board name with the -b flag.

In order to inject the necessary files into a rom image, run the script from the root of lbmk and point to the rom image.

If you only wish to flash a release rom then the process of injecting the necessary files is quite simple. Run the injection script pointing to the release archive you downloaded:

./vendor inject /path/to/libreboot-RELEASE_targetname.tar.xz

The script can automatically detect the board as long as you do not change the file name. You can then find flash-ready ROMs in /bin/release/

Alternatively, you may patch only a single rom file. For example:

./vendor inject -r w541_libreboot.rom -b w541_12mb

Optionally, you can use this script to modify the mac address of the rom with the -m flag. For example:

./vendor inject -r w541_libreboot.rom -b w541_12mb -m 00:f6:f0:40:71:fd

NOTE: this makes use of nvmutil, which you can read more about in the nvmutil documentation.

You can use dd to easily split your rom into the two separate portions for external flashing.

dd if=libreboot.rom of=top.rom bs=1M skip=8
dd if=libreboot.rom of=bottom.rom bs=1M count=8

Flash the top chip with top.rom, and tho bottom chip with bottom.rom. Don’t worry about knowing which chip is which on a standard setup; flashprog will let you know if the image size is incorrect for the chip you’re flashing.

No disassembly pics yet. The W540/T540p hardware maintenance manual also applies to W541:

https://thinkpads.com/support/hmm/hmm_pdf/t540p_w540_hmm_en_sp40a26003_01.pdf

This shows disassembly. When you disassemble, and get to flashing, please note:

MOSI/MISO lines are linked between the two flash ICs, at zero ohms. This is OK for internal flashing and normal operation, because the PCH turns each chip on or off as needed, by controlling each IC’s own chip select pin, which is pin 1.

When you wire the clip, to flash one of the ICs, the same voltage rail also turns on the other IC and the other IC’s own chip-select is in a floating state, which in practise means random logic state; in other words, the other flash may or may not be active, randomly.

This means that external flashing would not ordinarily work, unless you use the following trick:

Use a test hook wired to VCC (+3.3v), to pull the other flash’s chip-select high. So: when flashing one of the two ICs, the other chip must have pin 1 connected to VCC. You can do this with the same 3.3v power source that you use on pin 8 of the chip that you’re flashing. Ideally you should pull the other chip select high via 47ohm resistor, which should be enough to prevent damage in the case of accidentally shorting the wrong pin.

Doing this means that you disable the chip fou’re not flashing. It’s very important that you ensure only the one you want to flash is active, when using an external flasher.

This is not required for internal flashing. It is only required for external flashing.

If you do it right, the chips should flash reliably. This same trick must be used when flashing either of the chips.

You can now proceed to flashing this machine.

NOTE: As of Libreboot releases from May 2024 onward, the Intel MRC is no longer included for Haswell; MRC is a blob for raminit, but we now provide libre raminit. The following targets no longer exist in the build system:

• t440pmrc_12mb (use t440plibremrc_12mb instead)
• t440pbmrc_12mb (use t440plibremrc_12mb instead)
• w541mrc_12mb (use w541_12mb instead)
• w541bmrc_12mb (use w541_12mb instead)
• dell9020sff_12mb (use dell9020sff_nri_12mb instead)
• dell9020sffbmrc (use dell9020sff_nri_12mb instead)
• dell9020mt_12mb (use dell9020mt_nri_12mb instead)
• dell9020mtbmrc (use dell9020mt_nri_12mb instead)

This is written as errata because some users may still be using older release images but on the newer build system from May 2024 onward; you must use the Libreboot 20240225 release if you want to inject MRC and so on, for these older targets.

Libreboot’s binary blob reduction policy is very strict, and states: if a blob can be avoided, it must be avoided. Therefore, the MRC is removed on Haswell and Libreboot will only use the libre raminit (called NRI, short for Native Ram Initialisation).

Markdown file for this page: https://libreboot.org/docs/install/w541_external.md

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