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<?php
/*
    Frequently asked questions
    Copyright (C) 2015  Francis Rowe <info@gluglug.org.uk>

    This program is free software: you can redistribute it and/or modify
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    published by the Free Software Foundation, either version 3 of the
    License, or (at your option) any later version.

    This program is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU Affero General Public License for more details.

    You should have received a copy of the GNU Affero General Public License
    along with this program.  If not, see <http://www.gnu.org/licenses/>.
*/
	header('Content-type: text/html; charset=utf-8');
	ob_start();
	include_once "../common/variables.php";
	include_once "../common/functions.php";
?>
<!DOCTYPE html>
<html>
<head>
	<style type="text/css">
		<?php echo miniCss(file_get_contents("../common/css/main.css")); ?>
	</style>
	<title>Answers to Frequently Asked Questions about libreboot</title>
</head>

<body>

	<div id="pagetop">

		<h1>Answers to Frequently Asked Questions about libreboot</h1>
			<p>
				Over time, there have been many questions asked about libreboot. We have to answer them every time,
				so it makes sense to document them here instead. More questions and answers will be added here,
				as time goes by. <a href="../">Back to home page</a>
			</p>
			<h2>Hardware compatibility</h2>
				<ul class="cascade">
					<li><a href="#compatibility">What systems are compatible with libreboot?</a></li>
					<li>
						<a href="#intel">Why is the latest Intel hardware unsupported in libreboot?</a>
						<ul>
							<li><a href="#intelme">Intel Management Engine (ME)</a></li>
							<li><a href="#fsp">Firmware Support Package (FSP)</a></li>
							<li><a href="#microcode">CPU microcode updates</a></li>
							<li><a href="#intelbastards">Intel is uncooperative</a></li>
						</ul>
					</li>
					<li><a href="#librem">Will the Purism Librem laptops be supported?</a></li>
					<li><a href="#thinkpads">Will the latest Thinkpad models be supported?</a></li>
					<li><a href="#desktops">Will desktop/server hardware be supported?</a></li>
					<li><a href="#randomhardware">Hi, I have &lt;insert random system here&gt;, is it supported?</a></li>
					<li><a href="#arm">What about ARM?</a></li>
					<li><a href="#amd">What about AMD?</a></li>
				</ul>
			<h2>General questions</h2>
				<ul class="cascade">
					<li><a href="#install">How do I install libreboot?</a></li>
					<li><a href="#repugnantpi">How do I program an SPI flash chip with the Raspberry Pi?</a></li>
					<li><a href="#bootpassword">How do I set a boot password?</a></li>
					<li><a href="#writeprotect">How do I write-protect the flash chip?</a> (for example, to protect against firmware-level malware being installed)</li>
					<li><a href="#biossettings">How do I change the BIOS settings?</a></li>
					<li><a href="#bootloader">Do I need to install a bootloader when installing GNU/Linux?</a></li>
					<li><a href="#reinstallos">Do I need to re-flash when I re-install GNU/Linux?</a></li>
				</ul>
			<h2>Freedom questions</h2>
				<ul class="cascade">
					<li>
						<a href="#otherfirmware">What other firmware exists outside of libreboot?</a>
						<ul>
							<li><a href="#firmware-ec">EC (embedded controller) firmware</a></li>
							<li><a href="#firmware-hddssd">HDD/SSD firmware</a></li>
							<li><a href="#firmware-nic">NIC (ethernet controller)</a></li>
							<li><a href="#firmware-cpu">CPU microcode</a></li>
							<li><a href="#firmware-sound">Sound card</a></li>
							<li><a href="#firmware-webcam">Web cam</a></li>
							<li><a href="#firmware-usbhost">USB host controller</a></li>
							<li><a href="#firmware-wwan">WWAN firmware</a></li>
						</ul>
					</li>
				</ul>
			<h2>Operating Systems</h2>
				<ul class="cascade">
					<li><a href="#gnulinux">Can I use GNU/Linux?</a> (yes, you can)</li>
					<li><a href="#gnuhurd">Can I use GNU/Hurd?</a></li>
					<li><a href="#bsd">Can I use BSD?</a></li>
					<li><a href="#windows">Can I use Windows?</a></li>
					<li><a href="#otheros">Are other operating systems compatible?</a></li>
				</ul>
			<h2></h2>
	</div>

	<div>
		<h1>Hardware compatibility</h1>

			<h2 id="compatibility">What systems are compatible with libreboot? <span class="ref">(<a href="#compatibility">#compatibility</a>)</span></h2>
				<p>
					See <a href="../docs/hcl/index.html">../docs/hcl/index.html</a>.
				</p>
				<p>
					Several supported systems are also available with libreboot pre-installed.
					Check the <a href="../suppliers/">suppliers</a> page for more information.
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>

			<h2 id="intel">Why is the latest Intel hardware unsupported in libreboot? <span class="ref">(<a href="#intel">#intel</a>)</span></h2>
				<p>
					It is extremely unlikely that any post-2008 Intel hardware will ever be supported in libreboot, due to
					severe security and freedom issues; so severe, that <i>the libreboot project recommends avoiding all modern Intel hardware.
					If you have an Intel based system affected by the problems described below, then you should get rid of it as soon as possible</i>. The main issues are as follows:
				</p>
				<h3 id="intelme">Intel Management Engine (ME) <span class="ref">(<a href="#intelme">#intelme</a>)</span></h3>
					<p>
						Introduced in June 2006 in Intel's 965 Express Chipset Family of (Graphics and)
						Memory Controller Hubs, or (G)MCHs, and the ICH8 I/O Controller Family, the
						Intel Management Engine (ME) is a separate computing environment physically
						located in the (G)MCH chip.  In Q3 2009, the first generation of Intel Core
						i3/i5/i7 (Nehalem) CPUs and the 5 Series Chipset family of Platform Controller
						Hubs, or PCHs, brought a more tightly integrated ME (now at version 6.0) inside
						the PCH chip, which itself replaced the ICH.  Thus, the ME is <b><i>present on all
						Intel desktop, mobile (laptop), and server systems since mid 2006</i></b>.
					</p>
					<p>
						The ME consists of an ARC processor core (replaced with other processor cores in
						later generations of the ME), code and data caches, a timer, and a secure
						internal bus to which additional devices are connected, including a cryptography
						engine, internal ROM and RAM, memory controllers, and a <b><i>direct memory access
						(DMA) engine</i></b> to access the host operating system's memory as well as to
						reserve a region of protected external memory to supplement the ME's limited
						internal RAM.  The ME also has <b><i>network access</i></b> with its own MAC address
						through an Intel Gigabit Ethernet Controller.  Its boot program, stored on the
						internal ROM, loads a firmware "manifest" from the PC's SPI flash chip.  This
						manifest is <b><i>signed with a strong cryptographic key</i></b>, which differs
						between versions of the ME firmware.  If the manifest isn't signed by a specific
						Intel key, the boot ROM won't load and execute the firmware and the ME processor
						core will be halted.
					</p>
					<p>
						The ME firmware is compressed and consists of modules that are listed in the
						manifest along with secure cryptographic hashes of their contents.  One module
						is the operating system kernel, which is based on a <b><i>proprietary real-time
						operating system (RTOS) kernel</i></b> called "ThreadX".  The developer, Express
						Logic, sells licenses and source code for ThreadX.  Customers such as Intel are
						forbidden from disclosing or sublicensing the ThreadX source code.  Another
						module is the Dynamic Application Loader (DAL), which consists of a <b><i>Java
						virtual machine</i></b> and set of pre-installed Java classes for cryptography,
						secure storage, etc.  The DAL module can load and execute additional ME modules
						from the PC's HDD or SSD.  The ME firmware also includes a number of native
						application modules within its flash memory space, including Intel Active
						Management Technology (AMT), an implementation of a Trusted Platform Module
						(TPM), Intel Boot Guard, and audio and video DRM systems.
					</p>
					<p>
						The <a href="https://www.fsf.org/blogs/community/active-management-technology">
						Active Management Technology (AMT)</a> application, part of the Intel "vPro"
						brand, is a Web server and application code that enables remote users to power
						on, power off, view information about, and otherwise manage the PC.  It can
						be <b><i>used remotely even while the PC is powered off</i></b> (via Wake-on-Lan).
						Traffic is encrypted using SSL/TLS libraries, but recall that all of the major
						SSL/TLS implementations have had highly publicized vulnerabilities.  The AMT
						application itself has <b><i><a
						href="https://en.wikipedia.org/wiki/Intel_Active_Management_Technology#Known_vulnerabilities_and_exploits">
						known vulnerabilities</a></i></b>, which have been exploited to develop rootkits
						and keyloggers and covertly gain encrypted access to the management features of
						a PC.  Remember that the ME has full access to the PC's RAM.  This means that an
						attacker exploiting any of these vulnerabilities may gain access to everything
						on the PC as it runs: all open files, all running applications, all keys
						pressed, and more.
					</p>
					<p>
						<a href="https://mjg59.dreamwidth.org/33981.html">Intel Boot Guard</a> is an ME
						application introduced in Q2 2013 with ME firmware version 9.0 on 4th Generation
						Intel Core i3/i5/i7 (Haswell) CPUs.  It allows a PC OEM to generate an
						asymmetric cryptographic keypair, install the public key in the CPU, and prevent
						the CPU from executing boot firmware that isn't signed with their private key.
						This means that <b><i>coreboot and libreboot are impossible to port</i></b> to such
						PCs, without the OEM's private signing key.  Note that systems assembled from
						separately purchased mainboard and CPU parts are unaffected, since the vendor of
						the mainboard (on which the boot firmware is stored) can't possibly affect the
						public key stored on the CPU.
					</p>
					<p>
						ME firmware versions 4.0 and later (Intel 4 Series and later chipsets) include
						an ME application for <b><i>audio and video <a
						href="https://defectivebydesign.org/what_is_drm_digital_restrictions_management">
						DRM</a></i></b> called "Protected Audio Video Path" (PAVP).  The ME receives from
						the host operating system an encrypted media stream and encrypted key, decrypts
						the key, and sends the encrypted media decrypted key to the GPU, which then
						decrypts the media.  PAVP is also used by another ME application to draw an
						authentication PIN pad directly onto the screen.  In this usage, the PAVP
						application directly controls the graphics that appear on the PC's screen in a
						way that the host OS cannot detect.  ME firmware version 7.0 on PCHs with 2nd
						Generation Intel Core i3/i5/i7 (Sandy Bridge) CPUs replaces PAVP with a similar
						DRM application called "Intel Insider".  Like the AMT application, these DRM
						applications, which in themselves are defective by design, demonstrate the
						omnipotent capabilities of the ME: this hardware and its proprietary firmware
						can access and control everything that is in RAM and even <b><i>everything that is
						shown on the screen</i></b>.
					</p>
					<p>
						The Intel Management Engine with its proprietary firmware has complete access to
						and control over the PC: it can power on or shut down the PC, read all open
						files, examine all running applications, track all keys pressed and mouse
						movements, and even capture or display images on the screen.  And it has a
						network interface that is demonstrably unsecure, which can allow an attacker on
						the network to inject rootkits that completely compromise the PC and can report
						to the attacker all activities performed on the PC.  It is a threat to freedom,
						security, and privacy that can't be ignored.
					</p>
					<p>
						Before version 6.0 (that is, on systems from 2008/2009 and earlier), the ME can
						be disabled by setting a couple of values in the SPI flash memory.  The ME
						firmware can then be removed entirely from the flash memory space.  libreboot <a
						href="../docs/hcl/gm45_remove_me.html">does this</a> on the Intel 4 Series
						systems that it supports, such as the <a
						href="../docs/install/x200_external.html">Libreboot X200</a> and <a
						href="../docs/install/t400_external.html">Libreboot T400</a>.  ME firmware
						versions 6.0 and later, which are found on all systems with an Intel Core
						i3/i5/i7 CPU and a PCH, include "ME Ingition" firmware that performs some
						hardware initialization and power management.  If the ME's boot ROM does not
						find in the SPI flash memory an ME firmware manifest with a valid Intel
						signature, the whole PC will shut down after 30 minutes.
					</p>
					<p>
						Due to the signature verification, developing free replacement firmware for the
						ME is basically impossible.  The only entity capable of replacing the ME
						firmware is Intel.  As previously stated, the ME firmware includes proprietary
						code licensed from third parties, so Intel couldn't release the source code even
						if they wanted to.  And even if they developed completely new ME firmware
						without third-party proprietary code and released its source code, the ME's boot
						ROM would reject any modified firmware that isn't signed by Intel.  Thus, the ME
						firmware is both hopelessly proprietary and "tivoized".
					</p>
					<p><b>
						In summary, the Intel Management Engine and its applications are a backdoor with
						total access to and control over the rest of the PC.  The ME is a threat to
						freedom, security, and privacy, and the libreboot project strongly recommends
						avoiding it entirely.  Since recent versions of it can't be removed, this means
						avoiding all recent generations of Intel hardware.
					</b></p>
					<p>
						More information about the Management Engine can be found on various Web sites,
						including <a href="http://me.bios.io/Main_Page">me.bios.io</a>, <a
						href="http://io.smashthestack.org/me/">the smashthestack network</a>, <a
						href="http://www.coreboot.org/Intel_Management_Engine">coreboot wiki</a>, and <a
						href="https://en.wikipedia.org/wiki/Intel_Active_Management_Technology">
						Wikipedia</a>.  The book <b><i><a href="https://www.apress.com/9781430265719">
						Platform Embedded Security Technology Revealed</a></i></b> describes in great
						detail the ME's hardware architecture and firmware application modules.
					</p>
				<h3 id="fsp">Firmware Support Package (FSP) <span class="ref">(<a href="#fsp">#fsp</a>)</span></h3>
					<p>
						On all recent Intel systems, coreboot support has revolved around integrating a blob (for each system) called
						the <i>FSP</i> (firmware support package), which handles all of the hardware initialization, including
						memory initialization. Reverse engineering and replacing this blob is almost impossible, due to how complex it is. Even for the most skilled developer,
						it would take years to replace. Intel distributes this blob to firmware developers, without source.
					</p>
					<p>
						Since the FSP is responsible for the early hardware initialization, that means it also handles SMM (System Management Mode). This is
						a special mode that operates below the operating system level. <b>It's possible that rootkits could be implemented there, which could
						perform a number of attacks on the user (the list is endless). Any Intel system that has the proprietary FSP blob cannot be trusted at
						all.</b> In fact, several SMM rootkits have been demonstrated in the wild (use a search engine to find them).
					</p>
				<h3 id="microcode">CPU microcode updates <span class="ref">(<a href="#microcode">#microcode</a>)</span></h3>
					<p>
						All modern x86 CPUs (from Intel and AMD) use what is called <i>microcode</i>. CPUs are extremely complex,
						and difficult to get right, so the circuitry is designed in a very generic way, where only basic instructions
						are handled in hardware. Most of the instruction set is implemented using microcode, which is low-level software
						running inside the CPU that can specify how the circuitry is to be used, for each instruction. The built-in microcode
						is part of the hardware, and read-only. Both the circuitry and the microcode can have bugs, which could cause reliability issues.
					</p>
					<p>
						Microcode <i>updates</i> are proprietary blobs, uploaded to the CPU at boot time, which patches the built-in
						microcode and disables buggy parts of the CPU to improve reliability. In the past, these updates were
						handled by the operating system kernel, but on all recent systems it is the boot firmware that must perform this task.
						Coreboot does distribute microcode updates for Intel and AMD CPUs, but libreboot cannot, because the whole point of libreboot
						is to be 100% <a href="https://www.gnu.org/philosophy/free-sw.html">free software</a>.
					</p>
					<p>
						On some older Intel CPUs, it is possible to exclude the microcode updates and not have any reliability issues in practise.
						All current libreboot systems work without microcode updates (otherwise, they wouldn't be supported in libreboot). However,
						all modern Intel CPUs require the microcode updates, otherwise the system will not boot at all, or it will be extremely
						unstable (memory corruption, for example).
					</p>
					<p>
						Intel CPU microcode updates are <i>signed</i>, which means that you could not even run a modified version, even if
						you had the source code. If you try to upload your own modified updates, the CPU will reject them. In other words,
						the microcode updates are <i><a href="https://www.gnu.org/proprietary/proprietary-tyrants.html">tivoized</a></i>.
					</p>
				<h3 id="intelbastards">Intel is uncooperative <span class="ref">(<a href="#intelbastards">#intelbastards</a>)</span></h3>
					<p>
						For years, coreboot has been struggling against Intel. Intel has been shown to be extremely uncooperative in general.
						Many coreboot developers, and companies, have tried to get Intel to cooperate; namely, releasing source code
						for the firmware components. Even Google, which sells millions of <i>chromebooks</i> (coreboot pre-installed)
						have been unable to persuade them.
					</p>
					<p>
						Even when Intel does cooperate, they still don't provide source code. They might provide limited information
						(datasheets) under strict corporate NDA (non-disclosure agreement), but even that is not guaranteed. Even ODMs and IBVs can't
						get source code from Intel, in most cases (they will just integrate the blobs that Intel provides).
					</p>
					<p>
						Recent Intel graphics chipsets also <a href="https://01.org/linuxgraphics/intel-linux-graphics-firmwares?langredirect=1">require firmware blobs</a>.
					</p>
					<p>
						Intel is only going to get worse when it comes to user freedom. Libreboot has no support recent Intel platforms, precisely because
						of the problems described above. The only way to solve this is to get Intel to change their policies and to be more friendly
						to the <a href="https://www.gnu.org/philosophy/free-sw.html">free software</a> community. Reverse engineering won't solve anything long-term, unfortunately, but we need to keep doing it
						anyway. Moving forward, Intel hardware is a non-option unless a radical change happens within Intel.
					</p>
					<p>
						<b>Basically, all Intel hardware from year 2010 and beyond will never be supported by libreboot. The libreboot project
						is actively ignoring all modern Intel hardware at this point, and focusing on alternative platforms.</b>
					</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>

			<h2 id="librem">Will the Purism Librem laptops be supported? <span class="ref">(<a href="#librem">#librem</a>)</span></h2>
				<p>
					Probably not. There are several privacy, security and freedom issues with these laptops, due to the Intel chipsets
					that they use. See <a href="#intel">#intel</a>. There are signed proprietary blobs which cannot be replaced
					(e.g. <a href="#intelme">Intel Management Engine</a> and <a href="#microcode">CPU microcode updates</a>).
					It uses the proprietary <a href="#fsp">Intel FSP</a> blob for the entire hardware initialization, which
					Intel <a href="#intelbastards">won't provide</a> the source code for. The Video BIOS (initialization firmware
					for the graphics hardware) is also proprietary.
				</p>
				<p>
					It will likely take many years to replace even one of these blobs, let alone all of them. Some of them (ME firmware and microcode) can't even be replaced,
					which immediately disqualifies these laptops from being added to libreboot. Google engineers have tried
					for many years to get source code from Intel, and to reverse engineer the blobs that Intel provides. So far, they have
					been unsuccessful. Google is also one of the companies that funds the coreboot project, and they hire a lot of the core
					developers, so it's not like they don't have vast resources at their disposal. Smaller companies have no chance.
				</p>
				<p>
					It's a shame, because these laptops would be perfect for libreboot.
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>

			<h2 id="thinkpads">Will the latest ThinkPad models be supported? <span class="ref">(<a href="#thinkpads">#thinkpads</a>)</span></h2>
				<p>
					The latest ThinkPad generation supported in libreboot are the ones
					using the GM45 (ICH9) chipsets, such as the ThinkPad X200 or T400.
					ThinkPads newer than this generation will probably never be supported in libreboot,
					due to the fact that there are signed blobs that cannot be removed or replaced
					(e.g. <a href="#intelme">Intel Management Engine</a>). See <a href="#intel">#intel</a>. Newer Lenovo laptops are
					also <a href="https://www.phoronix.com/scan.php?page=news_item&px=Intel-Boot-Guard-Kills-Coreboot">starting to use</a> the <a href="https://mjg59.dreamwidth.org/33981.html">Intel Boot Guard</a>, which specifically blocks the use of
					firmware that has not been signed by the OEM.
				</p>
				<p>
					Coreboot does have support for some more recent Lenovo laptops, but libreboot cannot support most of these.
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>

			<h2 id="desktops">Will desktop/server hardware be supported? <span class="ref">(<a href="#desktops">#desktops</a>)</span></h2>
				<p>
					A common issue with desktop hardware is the Video BIOS. Libreboot has to initialize the graphics chipset,
					but most graphics cards lack a free Video BIOS for this purpose. Some desktop motherboards supported in
					coreboot do have onboard graphics chipsets, but these also require a proprietary Video BIOS, in most cases.
				</p>
				<p>
					There is the XGI Z9s PCI-E graphics card, documented under <i>Board Ports</i> in <a href="../docs/tasks.html">../docs/tasks.html</a>, which might be viable for you.
				</p>
				<p>
					Although not desktop hardware (it's a server board), libreboot does support
					the <a href="../docs/hcl/kfsn4-dre.html">ASUS KFSN4-DRE</a>, with more server hardware
					support on the horizon, as outlined in <a href="../docs/tasks.html">../docs/tasks.html</a>.
					These boards have onboard graphics chipsets for which free native graphics initialization code
					does exist (as well as free initialization code for everything else in the boot firmware).
					These systems can be used to build very high-powered workstations, though it will be quite a bit
					bigger (physically) and more expensive than a standard desktop computer. However, it is the best
					option currently available in libreboot for this purpose.
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>

			<h2 id="randomhardware">Hi, I have &lt;insert random system here&gt;, is it supported? <span class="ref">(<a href="#randomhardware">#randomhardware</a>)</span></h2>
				<p>
					Most likely not. First, you must consult coreboot's own hardware compatibility list
					at <a href="http://www.coreboot.org/Supported_Motherboards">http://www.coreboot.org/Supported_Motherboards</a> and,
					if it is supported, check whether it can run without any proprietary blobs in the ROM image. If it can: wonderful! Libreboot
					can support it, and you can add support for it using the notes at <a href="../docs/maintain/index.html">../docs/maintain/index.html</a>.
					If not, then you will need to figure out how to reverse engineer and replace (or remove) those blobs that do still exist, in such a way
					where the system is still usable in some defined way.
				</p>
				<p>
					For those systems where no coreboot support exists, you must first port it to coreboot and,
					if it can then run without any blobs in the ROM image, it can be added to libreboot.
					See: <a href="http://www.coreboot.org/Motherboard_Porting_Guide">Motherboard Porting Guide</a> (this is just the tip of the iceberg!)
				</p>
				<p>
					Please note that board development should be done upstream (in coreboot) and merged downstream (into libreboot). This is
					the correct way to do it, and it is how the libreboot project is coordinated so as to avoid too much forking of the
					coreboot source code.
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>

			<h2 id="arm">What about ARM? <span class="ref">(<a href="#arm">#arm</a>)</span></h2>
				<p>
					TODO
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>
			<h2 id="amd">What about AMD? <span class="ref">(<a href="#amd">#amd</a>)</span></h2>
				<p>
					Libreboot has support for some AMD platforms, with more on the horizon.
					See <a href="../docs/hcl/index.html">../docs/hcl/index.html</a>.
				</p>
				<p>
					More AMD-related information will be added to this page at a later date.
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>
	</div>

	<div>
		<h1>General questions</h1>

			<h2 id="install">How do I install libreboot? <span class="ref">(<a href="#install">#install</a>)</span></h2>
				<p>
					See <a href="../docs/install/index.html">../docs/install/index.html</a>
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>

			<h2 id="repugnantpi">How do I program an SPI flash chip with the Raspberry Pi? <span class="ref">(<a href="#repugnantpi">#repugnantpi</a>)</span></h2>
				<p>
					The RPi can be used to install libreboot onto a system that uses SPI flash, but libreboot intentionally doesn't document it.
					Why? Blobs. The RPi requires a blob for the integrated video chipset, in order to boot. This was true of the original RPi, and
					has continued to be true for all subsequent revisions of the hardware. The RPi people clearly don't give a damn about your freedom,
					so we don't give a damn about endorsing them.
				</p>
				<p>
					There are other, more freedom-friendly SPI programmers available, documented on <a href="../docs/install/index.html">../docs/install/index.html</a>.
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>

			<h2 id="bootpassword">How do I set a boot password? <span class="ref">(<a href="#bootpassword">#bootpassword</a>)</span></h2>
				<p>
					If you are using the GRUB payload, you can add a username and password (salted, hashed)
					to your GRUB configuration that resides inside the flash chip. The following guides (which
					also cover full disk encryption, including the /boot/ directory) show how to set a boot password
					in GRUB: <a href="../docs/gnulinux/encrypted_trisquel.html">../docs/gnulinux/encrypted_trisquel.html</a> and <a href="../docs/gnulinux/encrypted_parabola.html">../docs/gnulinux/encrypted_parabola.html</a>
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>

			<h2 id="writeprotect">How do I write-protect the flash chip? <span class="ref">(<a href="#writeprotect">#writeprotect</a>)</span></h2>
				<p>
					By default, there is no write-protection on a libreboot system. This is for usability reasons,
					because most people do not have easy access to an external programmer for re-flashing their firmware,
					or they find it inconvenient to use an external programmer.
				</p>
				<p>
					On some systems, it is possible to write-protect the firmware, such that it is rendered read-only
					at the OS level (external flashing is still possible, using dedicated hardware). For example, on 
					current GM45 laptops (e.g. ThinkPad X200, T400), you can write-protect (see <a href="../docs/hcl/gm45_remove_me.html#ich9gen">../docs/hcl/gm45_remove_me.html#ich9gen</a>).
					Depending on your flash chip,
					you can also write-protect the i945 laptops, such as the ThinkPad X60 or T60 (see <a href="../docs/security/x60_security.html">../docs/security/x60_security.html</a>)
					and <a href="../docs/security/t60_security.html">../docs/security/t60_security.html</a> for links to a video explaining it).
				</p>
				<p>
					It's possible to write-protect on all libreboot systems, but the instructions need to be written.
					The documentation is in the main git repository, so you are welcome to submit patches adding these instructions.
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>
			<h2 id="biossettings">How do I change the BIOS settings? <span class="ref">(<a href="#biossettings">#biossettings</a>)</span></h2>
				<p>
					Libreboot actually uses the <a href="http://www.coreboot.org/GRUB2">GRUB payload</a>.
					More information about payloads can be found at <a href="http://www.coreboot.org/Payloads">coreboot.org/Payloads</a>.
				</p>
				<p>
					Libreboot inherits the modular payload concept from coreboot, which means that pre-OS bare-metal <i>BIOS setup</i> programs
					are not very practical. Coreboot (and libreboot) does include a utility called <i>nvramtool</i>, which can be used
					to change some settings. You can find nvramtool under <i>coreboot/util/nvramtool/</i>, in the libreboot source archives.
				</p>
				<p>
					The <i>-a</i> option in nvramtool will list the available options, and <i>-w</i> can be used to change them. Consult
					the nvramtool documentation on the coreboot wiki for more information.
				</p>
				<p>
					In practise, you don't need to change any of those settings, in most cases.
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>
			<h2 id="bootloader">Do I need to install a bootloader when installing GNU/Linux? <span class="ref">(<a href="#bootloader">#bootloader</a>)</span></h2>
				<p>
					Libreboot integrates the GRUB bootloader already, as a <i><a href="http://www.coreboot.org/Payloads">payload</a></i>. This means
					that the GRUB bootloader is actually <i>flashed</i>, as part of the boot firmware (libreboot). This means that you do
					not have to install a boot loader on the HDD or SSD, when installing GNU/Linux. You'll be able to boot GNU/Linux just fine,
					using the bootloader (GRUB) that is in the flash chip.
				</p>
				<p>
					This also means that even if you remove the HDD or SSD, you'll still have a functioning bootloader installed which
					could be used to boot a live GNU/Linux distribution installer from a USB flash drive.
					See <a href="../docs/gnulinux/grub_boot_installer.html">.../docs/gnulinux/grub_boot_installer.html</a>
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>
			<h2 id="reinstallos">Do I need to re-flash when I re-install GNU/Linux? <span class="ref">(<a href="#reinstallos">#reinstallos</a>)</span></h2>
				<p>
					Not anymore. Recent versions of libreboot (using the GRUB payload) will automatically
					switch to a GRUB configuration on the HDD or SSD, if it exists. You can also load a different
					GRUB configuration, from any kind of device that is supported in GRUB (such as a USB flash drive). For more information,
					see <a href="../docs/gnulinux/grub_cbfs.html">../docs/gnulinux/grub_cbfs.html</a>
				</p>
				<p>
					<a href="#pagetop">Back to top of page</a>
				</p>
	</div>

	<div>

		<h1>Freedom questions</h1>

			<h2 id="otherfirmware">What other firmware exists outside of libreboot? <span class="ref">(<a href="#otherfirmware">#otherfirmware</a>)</span></h2>

				<p>
					The main freedom issue on any system, is the boot firmware (usually referred to as a BIOS or UEFI). Libreboot replaces the boot firmware
					with fully free code, but even with libreboot, there may still be other hardware components in the system (e.g. laptop) that run
					their own dedicated firmware, sometimes proprietary. These are on secondary processors, where the firmware is usually read-only, written for very specific tasks.
					While these are unrelated to libreboot, technically speaking, it makes sense to document some of the issues here.
				</p>
				<p>
					Note that these issues are not unique to libreboot systems. They apply universally, to most systems. The issues described below
					are the most common (or otherwise critical).
				</p>
				<p>
					Dealing with these problems will most likely be handled by a separate project.
				</p>

				<h3 id="firmware-ec">EC (embedded controller) firmware <span class="ref">(<a href="#firmware-ec">#firmware-ec</a>)</span></h3>
					<p>
						Most (all?) laptops have this. The EC (embedded controller) is a small, separate processor that basically processes inputs/outputs
						that are specific to laptops. For example:
					</p>
						<ul class="cascade">
							<li>
								When you flick the radio on/off switch, the EC will enable/disable the wireless devices (wifi, bluetooth, etc) and enable/disable
								an LED that indicates whether it's turned on or not
							</li>
							<li>
								Listen to another chip that produces temperature readings, adjusting fan speeds accordingly (or turning the fan(s) on/off).
							</li>
							<li>
								Takes certain inputs from the keyboard, e.g. brightness up/down, volume up/down.
							</li>
							<li>
								Detect when the lid is closed or opened, and send a signal indicating this.
							</li>
							<li>
								Etc.
							</li>
						</ul>
					<p>
						Alexander Couzens from coreboot (lynxis on coreboot IRC) is working on a free EC firmware replacement for the ThinkPads
						that are supported in libreboot. See: <a href="https://github.com/lynxis/h8s-ec">https://github.com/lynxis/h8s-ec</a> (not ready yet).
					</p>
					<p>
						Most (all?) chromebooks have free EC firmware. Libreboot is currently looking into supporting a few ARM-based chromebooks.
					</p>
					<p>
						EC is only present on laptops. On desktop/server boards it is absent (not required).
					</p>
					<p>
						<a href="#pagetop">Back to top of page</a>
					</p>

				<h3 id="firmware-hddssd">HDD/SSD firmware <span class="ref">(<a href="#firmware-hddssd">#firmware-hdd-ssd</a>)</span></h3>
					<p>
						HDDs and SSDs have firmware in them, intended to handle the internal workings of the device while exposing a simple,
						standard interface (such as AHCI/SATA) that the OS software can use, generically. This firmware is transparent to the user
						of the drive.
					</p>
					<p>
						HDDs and SSDs are quite complex, and these days contain quite complex hardware which is even capable of running an entire
						operating system (by this, we mean that the drive itself is capable of running its own embedded OS), even GNU/Linux
						or BusyBox/Linux.
					</p>
					<p>
						Example attack that malicious firmware could do: substitute your SSH keys, allowing unauthorized remote access by an unknown
						adversary. Or maybe substitute your GPG keys. AHCI (SATA) drives also will have DMA, which means that they could read
						from system memory; the drive can have its own hidden storage, theoretically, where it could read your LUKS keys and store them
						unencrypted for future retrieval by an adversary.
					</p>
					<p>
						With proper IOMMU, it might be possible to mitigate any DMA-related issues that might arise.
					</p>
					<p>
						Some proof of concepts have been demonstrated. For HDDs:<br/>
						<a href="https://spritesmods.com/?art=hddhack&page=1">https://spritesmods.com/?art=hddhack&amp;page=1</a><br/>
						For SSDs:<br/>
						<a href="http://www.bunniestudios.com/blog/?p=3554">http://www.bunniestudios.com/blog/?p=3554</a>
					</p>
					<p>
						Viable free replacement firmware is currently unknown to exist. For SSDs, the <a href="http://www.openssd-project.org/wiki/The_OpenSSD_Project">OpenSSD</a> project may be interesting.
					</p>
					<p>
						Apparently, SATA drives themselves don't have DMA but can make use of it through the controller.
						This <a href="http://www.lttconn.com/res/lttconn/pdres/201005/20100521170123066.pdf">http://www.lttconn.com/res/lttconn/pdres/201005/20100521170123066.pdf</a> and <br/>
						this <a href="http://www.intel.co.uk/content/dam/www/public/us/en/documents/technical-specifications/serial-ata-ahci-spec-rev1_3.pdf">http://www.intel.co.uk/content/dam/www/public/us/en/documents/technical-specifications/serial-ata-ahci-spec-rev1_3.pdf</a>
					</p>
					<p>
						<a href="#pagetop">Back to top of page</a>
					</p>

				<h3 id="firmware-nic">NIC (ethernet controller) <span class="ref">(<a href="#firmware-nic">#firmware-nic</a>)</span></h3>
					<p>
						Ethernet NICs will typically run firmware inside, which is responsible for initializing the device internally.
						Theoretically, it could be configured to drop packets, or even modify them.
					</p>
					<p>
						With proper IOMMU, it might be possible to mitigate the DMA-related issues.
						A USB NIC can also be used, which does not have DMA.
					</p>
					<p>
						<a href="#pagetop">Back to top of page</a>
					</p>

				<h3 id="firmware-cpu">CPU microcode <span class="ref">(<a href="#firmware-cpu">#firmware-cpu</a>)</span></h3>
					<p>
						Implements an instruction set. See <a href="#microcode">#microcode</a> for a brief description.
						Here we mean microcode built in to the CPU. We are not talking about the updates supplied by the boot firmware
						(libreboot does not include microcode updates, and only supports systems that will work without it)
						Microcode can be very powerful. No proof that it's malicious, but it could theoretically
					</p>
					<p>
						There isn't really a way to solve this, unless you use a CPU which does not have microcode.
						(ARM CPUs don't, but most ARM systems require blobs for the graphics hardware at present, and typically
						have other things like soldered wifi which might require blobs)
					</p>
					<p>
						CPUs often on modern systems have a processor inside it for things like power management.
						ARM for example, has lots of these.
					</p>
					<p>
						<a href="#pagetop">Back to top of page</a>
					</p>

				<h3 id="firmware-sound">Sound card <span class="ref">(<a href="#firmware-sound">#firmware-sound</a>)</h3>
					<p>
						Sound hardware (integrated or discrete) typically has firmware on it (DSP) for processing input/output.
						Again, a USB DAC is a good workaround.
					</p>
					<p>
						<a href="#pagetop">Back to top of page</a>
					</p>

				<h3 id="firmware-webcam">Web cam <span class="ref">(<a href="#firmware-webcam">#firmware-webcam</a></h3>
					<p>
						Webcams have firmware integrated into them that process the image input into the camera; adjusting focus,
						white balancing and so on. Can use USB webcam hardware, to work around potential DMA issues; integrated webcams
						(on laptops, for instance) are discouraged by the libreboot project.
					</p>
					<p>
						<a href="#pagetop">Back to top of page</a>
					</p>

				<h3 id="firmware-usbhost">USB host controller <span class="ref">(<a href="#firmware-usbhost">#firmware-usbhost</a>)</span></h3>
					<p>
						Doesn't really apply to current libreboot systems (none of them have USB 3.0 at the moment), but
						USB 3.0 host controllers typically rely on firmware to implement the XHCI specification. Some newer
						coreboot ports also require this blob, if you want to use USB 3.0.
					</p>
					<p>
						This doesn't affect libreboot at the moment, because all current systems that are supported only
						have older versions of USB available. USB devices also don't have DMA (but the USB host controller itself does).
					</p>
					<p>
						With proper IOMMU, it might be possible to mitigate the DMA-related issues (with the host controller).
					</p>
					<p>
						<a href="#pagetop">Back to top of page</a>
					</p>
				<h3 id="firmware-wwan">WWAN firmware <span class="ref">(<a href="#firmware-wwan">#firmware-wwan</a>)</span></h3>
					<p>
						Some laptops might have a simcard reader in them, with a card for handling WWAN, connecting to a 3g/4g (e.g. GSM) network.
						This is the same technology used in mobile phones, for remote network access (e.g. internet).
					</p>
					<p>
						NOTE: not to be confused with wifi. Wifi is a different technology, and entirely unrelated.
					</p>
					<p>
						The baseband processor inside the WWAN chip will have its own embedded operating system, most likely proprietary. Use of this
						technology also implies the same privacy issues as with mobile phones (remote tracking by the GSM network, by triangulating the signal).
					</p>
					<p>
						On some laptops, these cards use USB (internally), so won't have DMA, but it's still a massive freedom and privacy issue.
						If you have an internal WWAN chip/card, the libreboot project recommends that you disable and (ideally, if possible) physically
						remove the hardware. If you absolutely must use this technology, an external USB dongle is much better because it can be
						easily removed when you don't need it, thereby disabling any external entities from tracking your location.
					</p>
					<p>
						Use of ethernet or wifi is recommended, as opposed to mobile networks, as these are generally much safer.
					</p>
					<p>
						On all current libreboot laptops, it is possible to remove the WWAN card and sim card if it exists. The WWAN card is next to the wifi card, and the
						sim card (if installed) will be in a slot underneath the battery, or next to the RAM.
					</p>
					<p>
						<a href="#pagetop">Back to top of page</a>
					</p>

	</div>

	<div>
		<h1>Operating Systems</h1>
			<h2 id="gnulinux">Can I use GNU/Linux? <span class="ref">(<a href="#gnulinux">#gnulinux</a>)</span></h2>
				<p>
					Absolutely! GNU/Linux is well-tested in libreboot, and highly recommended.
					See <a href="../docs/gnulinux/grub_boot_installer.html">installing GNU/Linux</a> and <a href="../docs/gnulinux/grub_cbfs.html">booting GNU/Linux</a>.
				</p>
				<p>
					Any recent distribution should work, as long as it uses KMS (kernel mode setting) for the graphics.
				</p>
				<p>
					The <a href="https://fsf.org/">Free Software Foundation</a> maintains
					a <a href="https://gnu.org/distros/free-distros.html">list of free GNU/Linux distributions</a>, certified
					to distribute and endorse <a href="https://www.gnu.org/philosophy/free-sw.html">free software</a>, exclusively.
				</p>
				<p>
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				</p>

			<h2 id="gnuhurd">Can I use GNU/Hurd? <span class="ref">(<a href="#gnuhurd">#gnuhurd</a>)</span></h2>
				<p>
					Unknown. Probably not. Feel free to try it, and report your findings.
				</p>
				<p>
					<a href="https://www.gnu.org/software/hurd/hurd.html">GNU Hurd</a> is a microkernel developed by
					the <a href="https://gnu.org/">GNU project</a>, and was (still is) intended to be the kernel for the
					GNU operating system. For historical reasons, <a href="https://kernel.org/">Linux</a> became the primarily
					adopted kernel (the libreboot project urges everyone to install and use <a href="http://www.fsfla.org/ikiwiki/selibre/linux-libre/">linux-libre</a> on their GNU systems),
					and was adapted for use with the GNU system. This is <a href="https://www.gnu.org/gnu/why-gnu-linux.html">why</a> we
					say <a href="https://www.gnu.org/gnu/linux-and-gnu.en.html">GNU/Linux</a>. Read the <a href="https://www.gnu.org/gnu/gnu-linux-faq.html">GNU/Linux FAQ</a>.
				</p>
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				</p>

			<h2 id="bsd">Can I use BSD? <span class="ref">(<a href="#bsd">#bsd</a>)</span></h2>
				<p>
					Potentially. It may be possible to boot most BSD systems if you use
					the <a href="http://coreboot.org/SeaBIOS">SeaBIOS</a> payload.
					Most BSD systems seem to require a full Video BIOS implementation, which
					libreboot lacks for the most part, so you won't have a visual display, but you
					might be able to use an EHCI debug and/or serial console.
				</p>
				<p>
					FreeBSD is rumoured to be somewhat compatible (with the GRUB payload, even), when booting with
					text-mode graphics initialization, but you probably won't be able to use X11.
				</p>
				<p>
					For the most part, BSD systems remain untested in libreboot.
					BSD systems <a href="https://www.gnu.org/distros/common-distros.html">contain blobs</a>, so do beware.
				</p>
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				</p>

			<h2 id="windows">Can I use Windows? <span class="ref">(<a href="#windows">#windows</a>)</span></h2>
				<p>
					Windows is incompatible with libreboot, and will probably remain so. <a href="https://gnu.org/philosophy/malware-microsoft.html">Never use Windows</a>.
				</p>
				<p>
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				</p>

			<h2 id="otheros">Are other operating systems compatible? <span class="ref">(<a href="#otheros">#otheros</a>)</span></h2>
				<p>
					Unknown. Probably not.
				</p>
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				</p>
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