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---
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title: Binary blob policy
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x-toc-enable: true
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...
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This article was written by Leah Rowe, the founder and current lead developer
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of Libreboot.
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Introduction
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============
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Libreboot intentionally *de-blobs* coreboot, which is to say that it does not
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include binary blobs. The coreboot software otherwise requires binary blobs on
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most systems that it has support for. Libreboot's version of coreboot is
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entirely *free*, on its consequently reduced set of supported mainboards.
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Libreboot is designed to comply with the Free Software Foundation's
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[Respects Your Freedom criteria](https://ryf.fsf.org/about/criteria) and
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the [GNU Free System Distribution Guidelines (GNU FSDG)](https://www.gnu.org/distros/free-system-distribution-guidelines.en.html),
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ensuring that it is entirely [Free Software](https://www.gnu.org/philosophy/free-sw.html).
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It was decided that a formal policy should be written, because there is quite
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a bit of nuance that would otherwise not be covered. Libreboot's policies in
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this regard were previously ill defined.
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Background information
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======================
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Libreboot concerns itself only with what goes in the main boot flash IC, but
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there are other pieces of firmware to take into consideration, as covered
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in the [Libreboot FAQ](faq.md#what-other-firmware-exists-outside-of-libreboot).
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Most critical of these are:
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* Embedded controller firmware
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* HDD/SSD firmware
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* Intel Management Engine / AMD PSP firmware
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Specific binary blobs are also problematic, on most coreboot systems, but they
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differ per machine. Libreboot *excludes* binary blobs in releases, so it only
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supports a handful of machines from coreboot.
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For information about Intel Management Engine and AMD PSP, refer to the FAQ.
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So what *is* Libreboot's policy?
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================================
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Libreboot follows a very conservative and *light touch* approach, when it comes
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to deblobbing coreboot. It is a very *correct* approach.
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Libreboot only excludes *software* binary blobs, plus CPU microcode updates,
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completely in line with FSF policy. *In practise, it is mostly microcode
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updates that Libreboot's build system deletes, along with coreboot Git history
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so that no traces remain of old revisions; older revisions had many blobs in
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the main repository, but modern coreboot moved almost all of them to third
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party submodule repositories.*.
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*Non-software* blobs are permitted, so long as they are in an easily understood
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and/or well-documented format. For example, DDR training data is permitted
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(patterns used during memory controller initialization, specifically training,
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where the precise timings for the RAM are brute-forced); this is not software.
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SPD data stored in the coreboot Git repository is in all cases some format
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that's simply more efficient to store as a binary, in a format that is in fact
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known/understood (see: coreboot source code and data sheets); in many cases,
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there's only *one* correct way to write such data, making even the question of
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copyright a moot point. Data is data, and code is code; the two are *separate*.
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Non-software blobs must be redistributable under a free license, and must not
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be encumbered by DRM, or they will not be included in Libreboot.
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Logic (in coreboot) for *loading or executing* binary blobs should not
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be removed/disabled. Libreboot merely *excludes* the blobs themselves. Most
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of the blobs that Libreboot removes (when downloading coreboot, in the build
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system) are CPU microcode updates; Libreboot leaves the code for loading
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microcode updates intact, and you can in fact insert microcode updates into
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your ROM image. This behaviour is intentional, and must not be removed. The
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only job Libreboot has is to not *distribute* those blobs itself!
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*That's all*. Furthermore, Libreboot must only support systems where *all* of
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the main boot flash can be free. For example, ivybridge and sandybridge intel
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platforms are completely libre in coreboot, but you still need neutered Intel
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ME firmware in the flash, making those machines unsuitable for Libreboot.
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Other firmware, such as Embedded Controller firmware, is currently outside the
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scope of the Libreboot project, but not due to lack of desire; rather, these
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are not yet possible on most supported or otherwise capable platforms, at least
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not with free software. Other examples of firmware outside of the main boot
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flash is covered in the Libreboot FAQ.
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Problems with RYF criteria
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==========================
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You can read those guidelines by following these hyperlinks:
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* [GNU Free System Distribution Guidelines (GNU FSDG)](https://www.gnu.org/distros/free-system-distribution-guidelines.en.html)
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* [FSF Respects Your Freedom (RYF) guidelines](https://ryf.fsf.org/about/criteria)
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The FSF RYF guidelines state the following:
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*"However, there is one exception for secondary embedded processors. The exception applies to software delivered inside auxiliary and low-level processors and FPGAs, within which software installation is not intended after the user obtains the product. This can include, for instance, microcode inside a processor, firmware built into an I/O device, or the gate pattern of an FPGA. The software in such secondary processors does not count as product software."*
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This is absolute pure nonsense, and should be rejected on ideological grounds.
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The rest of libreboot's policy and overall ideology expressed, in this article,
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will be based largely on that rejection. The term *product software* is
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completely asinine; software is software, and software should always be *free*.
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Instead of making such exceptions, more hardware should be encouraged, with
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help given to provide as much freedom as possible, while providing education
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to users about any pitfalls they may encounter, and encourage freedom at all
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levels. When an organisation like the FSF makes such bold exceptions as above,
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it sends the wrong message, by telling people essentially to sweep these other
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problems under the rug, just because they involve software that happens to run
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on a "secondary processor". If the software is possible to update by the user,
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then it should be free, regardless of whether the manufacturer *intended* for
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it to be upgraded or not. Where it really *isn't* possible to update such
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software, proprietary or not, advice should be given to that effect. Education
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is important, and the FSF's criteria actively discourages such education; it
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creates a false hope that everything is great and wonderful, just because the
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software on one arbitrary level is all free.
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This view of the FSF's, as expressed in the quoted paragraph, assumes that
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there is primarily *one* main processor controlling your system. On many
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modern computers, this is *no longer true*.
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Free *software* does not exist in a vacuum, but we had less freedom in the
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past, especially when it came to hardware, so *software* was our primary focus.
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[The four freedoms are absolute](https://www.gnu.org/philosophy/free-sw.html),
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but there is a lot of nuance when it comes to *boot firmware*, nuance which is
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largely non-existent outside of firmware development, or kernel development.
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Most typical application/system software is high level and portable, but boot
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firmware has to be written for each specific machine, and due to the way
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hardware works, there are many trade-offs made, including by the FSF when
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defining what standards should apply *in practise*. Different lines in different
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sands. Different *battle grounds*.
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The fact that almost nobody talks about the EC firmware is *because* of the
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Respects Your Freedom certification. In reality, the EC firmware is crucial
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to user freedom, and ought to be free, but it is completely disregarded by
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the FSF as *part of the hardware*. This is wrong, and the FSF should actively
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actively encourage people to free it, on every laptop!
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Other firmware currently outside the reach of the Libreboot project are covered
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in the Libreboot FAQ. For example, HDD/SSD firmware is covered in the FAQ.
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Again, completely disregarded and shrugged off by the FSF.
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The Libreboot project will not hide or overlook these issues, because they are
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indeed critical, but again, currently outside the scope of what lbmk does.
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At the moment, lbmk concerns itself just with coreboot, but this ought to
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change in the future.
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Examples of FSF inconsistency
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=============================
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Another example of FSF inconsistency: the ThinkPad T400 supported by Libreboot,
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often comes with both an ATI *and* Intel graphics chipset, but coreboot can be
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configured to use one or the other. If using the ATI chipset, there is currently
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no free initialization code available, but you can disable it and use the Intel
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one, where completely free initialization code exists in coreboot, plus free
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drivers in linux. Under strict interpretation of the RYF guidelines, the T400
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should not be endorsed by the FSF at all, but the FSF made an exception and
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endorsed it *in configurations where the Intel chipset is used exclusively as
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per software configuration*. They endorsed the T400 as sold by Leah Rowe, with
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Libreboot pre-installed.
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To be clear: use of the ATI video chipset on a ThinkPad T400 currently requires
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loading a proprietary *VGA option ROM*, loaded into the coreboot ROM image.
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Libreboot simply disables that chip and uses coreboot's init code for the Intel
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chip instead, with that chip in use exclusively. It can therefore be said that
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the ThinkPad T400 is not fully usable in freedom, even by the FSF's conservative
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standards. It is *especially* not free by Libreboot standards, because the EC
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firmware is non-free, and it is a non-free hardware design, even if it is
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nominally free with Libreboot installed.
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More detailed insight about microcode
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=====================================
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To be clear: it is preferable that microcode be free. The microcode on Intel
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and AMD systems *are* non-free. Facts and feelings rarely coincidence; the
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purpose of this section is to spread *facts*.
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Libreboot will not include the updates, because FSF compliance is still a
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policy, in spite of the FSF's flaws. Complying with a policy does not mean it
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should be agreed with; it's possible in life to do things contrary to ones own
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beliefs. However, this promise to the FSF is the only thing preventing it.
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It would otherwise be perfectly acceptable for *CPU microcode updates* to be
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inserted in Libreboot (and just microcode. no other blobs). Again: FSF RYF.
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Making matters worse, that very same text quoted from the FSF RYF criteria in
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fact specifically mentions microcode. Quoted again for posterity:
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*"However, there is one exception for secondary embedded processors. The
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exception applies to software delivered inside auxiliary and low-level
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processors and FPGAs, within which software installation is not intended after
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the user obtains the product. This can include, for instance, microcode inside
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a processor, firmware built into an I/O device, or the gate pattern of an FPGA.
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The software in such secondary processors does not count as product software."*
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Here, it is discussing the microcode that is burned into *mask ROM* on the CPU
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itself. It is simultaneously not giving the OK for microcode *updates* supplied
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by either coreboot or the Linux kernel; according to the FSF, these are an
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attack on your freedom, but the older, buggier microcode burned into ROM is OK.
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This is absolutely inconsistent.
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The CPU already has microcode burned into mask ROM. The microcode configures
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logic gates in the CPU, to implement an instruction set, via special *decoders*
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which are fixed-function; it is not possible, for example, to implement a RISCV
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ISA on an otherwise x86 processor. It is only possible for the microcode to
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implement x86, or *broken* x86, and the default microcode is almost always
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*broken x86* on Intel/AMD CPUs; it is inevitable, due to the complexity of
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these processors.
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The basis of the FSF's disagreement about microcode *updates* is that they do
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believe otherwise; Stallman himself expressed such ignorance to me, in a recent
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email conversation I had with him, as of January 2nd, 2022. The FSF believes
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that these x86 microcode updates (on Intel/AMD) allow you to completely create
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a new CPU that is fundamentally different than x86. This is not true. It is also
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not true that *all* instructions in x86 ISA are implemented with microcode. In
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some cases, hardcoded circuitry is used! The microcode updates are more like
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tiny one liner patches here and there in a git repository, by way of analogy.
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To once again get in the head-space of the FSF: these updates cannot do the CPU
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equivalent of re-factoring an entire codebase. They are *hot fixes*, nothing
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more!
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These processors provide a way to supply microcode *updates*. These updates
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are volatile, and consequently must be applied during every boot cycle. The
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updates fix stability/reliably/security bugs, and their *absence*
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is *technically incorrect*, but Libreboot excludes them anyway, because that is
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FSF policy. Examples of where these updates fix bugs: on ASUS KCMA-D8/KGPE-D16
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and ThinkPad X200/T400/T500/W500/X200T/X200/R500/X301, the updates make
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hardware-based virtualization (via `kvm`) completely stable, where it would
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otherwise lead to a kernel panic. They allow those same thinkpads to be run with
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high CPU usage and I/O (RAM usage), without crashing (otherwise, it's very
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likely to encounter a kernel panic caused by a
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[Machine Check Exception](faq.html#machine-check-exceptions-on-some-montevina-penryn-cpu-laptops)).
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Leah Rowe policy is to include microcode updates, *by default*, because they
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do not affect software freedom in practise, since the only other "choice" is
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*broken, buggy* microcode. This is not a choice, it is a prison, and a less
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comfortable prison is clearly inferior.
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Not including these updates will result in an unstable/undefined state. Intel
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themselves define which bugs affect which CPUs, and they define workarounds, or
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provide fixes in microcode. Based on this, software such as the Linux kernel
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can work around those bugs/quirks. Also, upstream versions of the Linux kernel
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can update the microcode at boot time (however, it is recommend still to do it
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from coreboot, for more stable memory controller initialization or “raminit”).
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Similar can be said about AMD CPUs.
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Here are some examples of where lack of microcode updates affected Libreboot,
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forcing Libreboot to work around changes made upstream in coreboot, changes
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that were *good* and made coreboot behave in a more standards-compliant manner
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as per Intel specifications. Libreboot had to *break* coreboot to retain
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certain other functionalities, on some GM45/ICH9M thinkpads:
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<https://browse.libreboot.org/lbmk.git/plain/resources/coreboot/default/patches/0012-fix-speedstep-on-x200-t400-Revert-cpu-intel-model_10.patch?id=9938fa14b1bf54db37c0c18bdfec051cae41448e>
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<https://browse.libreboot.org/lbmk.git/plain/resources/coreboot/default/patches/0018-Revert-cpu-intel-Configure-IA32_FEATURE_CONTROL-for-.patch?id=4b7be665968b67463ec36b9afc7e8736be0c9b51>
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These patches revert *bug fixes* in coreboot, fixes that happen to break other
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functionality but only when microcode updates are excluded. The most
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technically correct solution is to *not* apply the above patches, and instead
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supply microcode updates!
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Pick your poison. Libreboot does not disable the mechanism in coreboot to load
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these updates. At boot time, coreboot can supply such updates to the CPU, if
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present in CBFS. Libreboot merely excludes them, but you can add them to your
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Libreboot ROM image. A fork of Libreboot, named osboot, includes them by
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default; it does this, even on libreboot-compatible hardware. Not adding the
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updates is *irresponsible*, but a promise was made to the FSF back in 2013
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when the Libreboot project started, precisely that it would not add microcode
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to ROM images by default. It is Libreboot's policy to keep that promise.
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More info about osboot is available on <https://osboot.org/> - osboot's policy
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is the same as Libreboot, except that it does *not* delete blobs; the goal is
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still software freedom, but it provides those users who are not willing/able
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to use libreboot hardware to otherwise still have some freedoms compared to
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otherwise fully proprietary *vendor* firmware. osboot and libreboot are two
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sides of a coin; libreboot is the "light", and osboot is the dark side. Both
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projects are maintained and were founded by Leah Rowe.
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I am **this** close to adding microcode updates in Libreboot, on a weekly basis,
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for *years*. The only reason I don't add them is due to my own stubborn refusal
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to betray my original agreement with the FSF; I no longer have commercial ties
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with them (my company, Minifree, now ships with osboot, not libreboot, even on
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libreboot-compatible hardware, but still offers libreboot on request). I even
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do quite well for myself, but still: I made a promise to FSF where *libreboot*
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is concerned, and I decided that I would stick to the agreement.
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But I do not agree with that agreement. I never did. If you agree with my
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assessment about microcode, I wholeheartedly recommend osboot instead of
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Libreboot, on all libreboot-compatible hardware.
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My other reason that I will simply comply with FSF criteria is *precisely*
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that osboot exists. I created it *specifically* because I do not agree with the
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policy of Libreboot, my own project. I am horrified by the technically
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incorrect monstrosity that I created, so I did osboot to make me feel better.
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It is far superior to Libreboot, in every way, because it still can (*and does*)
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support the same hardware, but it lacks dogma. The osboot project takes a more
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pragmatic approach to freedom, that is completely in line with my action views.
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*Libreboot is inferior*.
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However, I will say:
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People have been using Libreboot for years, on these machines, and most people
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don't really have *that* many issues, most of the time. My opposition to FSF's
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microcode policy is out of principle. *Logical*, common sense principle. I
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simply cannot compute that microcode updates are an attack on your freedom,
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because:
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Microcode updates are not an attack on your freedom. The FSF's opposition to
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these updates is both symbolic and *ignorant*; it is ultimately futile, but I
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digress.
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**I will continue to develop Libreboot and osboot, in parallel.**
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Moral of the story
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==================
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Compromise and nuance is the name of the game, even if you're the FSF. As of
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January 2nd, 2022, [Richard Stallman himself](http://web.archive.org/web/20220102082138/https://stallman.org/stallman-computing.html)
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used a ThinkPad T400S with Libreboot installed onto it, with the Intel video
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chipset in use. He may not even be aware of the issue with ATI chips, though it
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should be said that T400*S* only ever comes with the Intel video chipset (not
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ATI). The ATI chipset is only ever available on the regular T400! Libreboot
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however would greatly benefit if those ATI chipsets had free init code in
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coreboot, because then users could make use of that and have superior performance
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for graphical applications, by using the ATI chip instead of the Intel one.
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It is currently not possible to do that in freedom.
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Other considerations
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--------------------
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Also not covered strictly by Libreboot: OSHW and Right To Repair. Freedom at
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the silicon level would however be amazing, and efforts already exist; for
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example, look at the RISCV ISA (in practise, actual fabrication is still
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proprietary and not under your control, but RISCV is a completely free CPU
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design that companies can use, instead of having to use proprietary ARM/x86 and
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so on). Similarly, Right To Repair (ability to repair your own device, which
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implies free access to schematics and diagrams) is critical, for the same
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reason that Free Software (Right To Hack) is critical!
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There ought to be a defined scope, in any project, and Libreboot currently has
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a very clearly defined scope, but it goes without saying that Libreboot could
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be *improved* and *do more* in the future. *RYF is garbage, and should be
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replaced; it is far too conservative by modern standards. FSDG is still OK.*
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OSHW and Right To Repair are not covered at all by RYF (FSF's Respects Your
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Freedom criteria), the criteria which Libreboot was created to comply with.
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RYF also makes several concessions that are ultimately damaging, such as
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the *software as circuitry* policy which is, frankly, nonsensical. ROM is still
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software. There was a time when the FSF didn't consider BIOS software a freedom
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issue, just because it was burned onto a mask ROM instead of *flashed*; those
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FSF policies ignore the fact that, with adequate soldering skills, it is trivial
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to replace stand-alone mask ROM ICs with compatible flash memory.
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Conclusion
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==========
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RYF isn't *wrong* per se, just flawed. It is correct in some ways and if
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complied with, the result *does* give many freedoms to the user, but RYF
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completely disregards many things that are now possible, including freedoms at
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the hardware level (the RYF criteria only covers *software*). Those guidelines
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are written with assumptions that were still true in the 1990s, but the world
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has since evolved. As of 2 January 2022, Libreboot still complies strictly with
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RYF, and will continue to do so, at least for the time being.
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Facts and *feelings* are usually very different things, and contradictory.
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Such is the nature of life.
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The conclusion that should be drawn from all of this is as follows:
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*Following* FSF criteria does not damage anything, but that criteria is very
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conservative. Its exemptions should be *disregarded* and entirely ignored.
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RYF is no longer fit for purpose, and should be rewritten to create
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a *more strict* set of guidelines, without all the loopholes or exemptions.
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As has always been the case, Libreboot tries to always go above and beyond, but
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the Libreboot project does not see RYF as a *gold standard*. There are levels
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of freedom possible now that the RYF guidelines do not cover at all, and in
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some cases even actively discourage/dis-incentivize because it makes compromises
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based on assumptions that are no longer true.
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Maintaining Libreboot, under the FSF's strict (and simultaneously lax: see
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EC loophole) policies, is a fun technical challenge, and it is a *worthwhile*
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pursuit. Having free boot firmware on the **host CPU** is very important!!
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Freedom is important, at all levels, including what runs merely on the host
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CPU, but that is not the *only* level to take into account. All levels should
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be considered, and *explored*, with or without the FSF's strict requirement
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(currently without). FSF currently looks at Libreboot and thinks that the work
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is *done*, when that is far from true, precisely because of the EC firmware
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and other freedom issues that remain, on all currently supported mainboards.
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Sad truth: RYF actively encourages *less* freedom, by not being bold enough.
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It pitches a victory flag and says *mission accomplished*, despite the fact
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that the work is *far* from complete!
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If followed *with exemptions unchallenged*, RYF may in some cases encourage
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companies to *sweep under the rug* any freedom issues that exist, where it
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concerns non-free firmware not running on the host CPU (such as the
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Embedded Controller firmware).
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I propose that new guidelines be written, to replace RYF. These new guidelines
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will do away with all exemptions/loopholes, and demand that *all* software be
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free on the machine, or as much as possible. Instead of only promoting products
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that meet some arbitrary standard, simply catalog all systems on a grand
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*database* of sorts (like h-node.org, but better). Include Right to Repair and
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OSHW (including things like RISCV) in the most "ideal" standard machine.
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Don't call it "Respects Your Freedom" or something similar. Instead, call it
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something like: the freedom catalog. And actually focus on hardware, not just
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software!
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In the year 2022 onwards, we can do better. The RYF program should be cancelled.
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It is no longer fit for purpose.
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Think for yourself, and do not let perfection become the enemy of the good.
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