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-<!DOCTYPE html>
-<html>
-<head>
-	<meta charset="utf-8">
-	<meta name="viewport" content="width=device-width, initial-scale=1">
-
-	<style type="text/css">
-		@import url('../css/main.css');
-	</style>
-
-	<title>ThinkPad X200: remove the ME (manageability engine)</title>
-</head>
-
-<body>
-
-	<div class="section">
-		
-		<h1 id="pagetop">ThinkPad X200: remove the ME (manageability engine)</h1>
-			<p>
-				This sections relates to disabling and removing the ME (Intel <b>M</b>anagement <b>E</b>ngine)
-				on the ThinkPad X200.
-			</p>
-			<p>
-				The ME is a blob that typically must be left inside the flash chip (in the ME region, as outlined
-				by the default descriptor). On the X200, it is possible to remove it without any ill effects. All
-				other parts of coreboot on the X200 can be blob-free, so removing the ME was the last obstacle to
-				get X200 support in libreboot (the machine can also work without the microcode blobs). 
-			</p>
-			<p>
-				The ME is removed and disabled in libreboot by modifying the descriptor. More info about
-				this can be found in the ich9deblob/ich9gen source code in resources/utilities/ich9deblob/
-				in libreboot, or more generally on this page.
-			</p>
-			<p>
-				<a href="x200.html">Back to main X200 compatibility page (x200.html)</a>.
-			</p>
-			
-	</div>
-
-	<div class="section">
-
-		<h1 id="ich9gen">ICH9 gen utility</h1>
-		
-			<p>
-				<b>This is no longer strictly necessary. Libreboot ROM images for X200 now
-				contain the 12KiB descriptor+gbe generated from ich9gen, by default.</b>
-			</p>
-		
-			<p>
-				It is no longer necessary to use <a href="#ich9deblob">ich9deblob</a> to generate
-				a deblobbed descriptor+gbe image for the X200. ich9gen is a small utility within
-				ich9deblob that can generate them from scratch, without a factory.bin dump.
-			</p>
-			
-			<p>
-				Run:<br/>
-				$ <b>./ich9gen</b>
-			</p>
-			
-			<p>
-				It is also possible to generate a descriptor+gbe image with your own MAC address
-				inside (with the Gbe checksum updated to match). Run:<br/>
-				$ <b>./ich9gen --macaddress XX:XX:XX:XX:XX:XX</b><br/>
-				(replace the XX chars with the hexadecimal chars in the MAC address that you want)
-			</p>
-			
-			<p>
-				You can find out your MAC address from <b>ip addr</b> or <b>ifconfig</b> in GNU/Linux. 
-				Alternatively, if you are running libreboot already (with the correct MAC address in your
-				ROM), dump it (flashrom -r) and read the first 6 bytes from position 0x1000 (or 0x2000) in a hex editor
-				(or, rename it to factory.rom and run it in ich9deblob: in the newly created mkgbe.c
-				will be the individual bytes of your MAC address). If you are currently running the stock firmware
-				and haven't installed libreboot yet, you can also run that through ich9deblob to get the mac address.
-			</p>
-			
-			<p>
-				An even simpler way to get the MAC address would be to read what's on the little sticker on
-				the underside. (on the X200, this would be near the VGA port).
-			</p>
-			
-			<p>
-				A bash script is also included in libreboot which will change the mac address (using ich9gen)
-				on all X200 ROM images. For instance:<br/>
-				$ <b>./ich9macchange XX:XX:XX:XX:XX:XX</b>
-			</p>
-			
-			<p>
-				Two new files will be created:
-			</p>
-				<ul>
-					<li><b>ich9fdgbe_4m.bin</b>: this is for X200 laptops with the 4MB flash chip.</li>
-					<li><b>ich9fdgbe_8m.bin</b>: this is for X200 laptops with the 8MB flash chip.</li>
-				</ul>
-				
-			<p>
-				ich9gen executables can be found under ./ich9deblob/ statically compiled in
-				libreboot_bin. If you are using src or git, build ich9gen from source with:<br/>
-				$ <b>./builddeps-ich9deblob</b><br/>
-				The executable will appear under resources/utilities/ich9deblob/
-			</p>
-			
-			<p>
-				Assuming that your X200 libreboot image is named <b>libreboot.rom</b>, copy
-				the file to where <b>libreboot.rom</b> is located
-				and then run, for instance:<br/>
-				$ <b>dd if=ich9fdgbe_8m.bin of=libreboot.rom bs=1 count=12k conv=notrunc</b><br/>
-				or:<br/>
-				$ <b>dd if=ich9fdgbe_4m.bin of=libreboot.rom bs=1 count=12k conv=notrunc</b>
-			</p>
-			
-			<p>
-				Your X200 libreboot.rom image is now ready to be flashed on the machine. Refer back to 
-				<a href="../install/index.html#flashrom">../install/index.html#flashrom</a>
-				for how to flash it.
-			</p>
-			
-	</div>
-
-	<div class="section">
-
-		<h1 id="ich9deblob">ICH9 deblob utility</h1>
-		
-			<p>
-				<b>This is no longer strictly necessary. Libreboot ROM images for X200 now
-				contain the 12KiB descriptor+gbe generated from ich9gen, by default.</b>
-			</p>
-			
-			<p>
-				This was the tool originally used to disable the ME on X200. <a href="#ich9gen">ich9gen</a> now supersedes it;
-				ich9gen is better because it does not rely on dumping the factory.rom image (whereas, ich9deblob does).
-			</p>
-		
-			<p>
-				This is what you will use to generate the deblobbed descriptor+gbe regions for your libreboot ROM image.
-			</p>
-			<p>
-				If you are working with libreboot_src (or git), you can find the source under resources/utilities/ich9deblob/
-				and will already be compiled if you ran ./builddeps or ./builddeps-ich9deblob from the main directory (./), 
-				otherwise you can build it like so:<br/>
-				$ <b>./builddeps-ich9deblob</b><br/>
-				An executable file named <b>ich9deblob</b> will now appear under resources/utilities/ich9deblob/
-			</p>
-			<p>
-				If you are working with libreboot_bin release archive, you can find the utility included, statically compiled
-				(for i686 and x86_64 on GNU/Linux) under ./ich9deblob/.
-			</p>
-			
-			<p>
-				Place the factory.rom from your X200 
-				(can be obtained using the guide at <a href="../install/x200_external.html">../install/x200_external.html</a>) in
-				the directory where you have your ich9deblob executable, then run the tool:<br/>
-				$ <b>./ich9deblob</b>
-			</p>
-			<p>
-				A 12kiB file named <b>deblobbed_descriptor.bin</b> will now appear. <b>Keep this and the factory.rom stored in a safe location!</b>
-				The first 4KiB contains the descriptor data region for your machine, and the next 8KiB contains the gbe region (config data for your
-				gigabit NIC). These 2 regions could actually be separate files, but they are joined into 1 file in this case.
-			</p>
-			
-			<p>
-				Assuming that your X200 libreboot image is named <b>libreboot.rom</b>, copy
-				the <b>deblobbed_descriptor.bin</b> file to where <b>libreboot.rom</b> is located
-				and then run:<br/>
-				$ <b>dd if=deblobbed_descriptor.bin of=libreboot.rom bs=1 count=12k conv=notrunc</b>
-			</p>
-			
-			<p>
-				The utility will also generate 4 additional files:
-			</p>
-				<ul>
-					<li>mkdescriptor.c</li>
-					<li>mkdescriptor.h</li>
-					<li>mkgbe.c</li>
-					<li>mkgbe.h</li>
-				</ul>
-			<p>
-				These are C source files that can re-generate the very same Gbe and Descriptor structs
-				(from ich9deblob/ich9gen). To use these, place them in src/ich9gen/ in ich9deblob, then re-build. 
-				The newly built <b>ich9gen</b> executable will be able to re-create the very same 12KiB file from scratch,
-				based on the C structs, this time <b>without</b> the need for a factory.rom dump!
-			</p>
-			
-			<p>
-				You should now have a <b>libreboot.rom</b> image containing the correct 4K descriptor and 8K gbe regions, which
-				will then be safe to flash. Refer back to <a href="../install/index.html#flashrom">../install/index.html#flashrom</a>
-				for how to flash it.
-			</p>
-			
-	</div>
-		
-	<div class="section">
-		
-		<p>
-			The sections below are adapted from (mostly) IRC logs related to early development getting the ME removed on the X200.
-			They are useful for background information. This could not have been done without sgsit's help.
-		</p>
-		
-		<div class="subsection">
-			
-			<h2 id="early_notes">Early notes</h2>
-		
-				<ul>
-					<li>
-						<a href="http://www.intel.co.uk/content/dam/doc/datasheet/io-controller-hub-10-family-datasheet.pdf">http://www.intel.co.uk/content/dam/doc/datasheet/io-controller-hub-10-family-datasheet.pdf</a>
-						page 230 mentions about descriptor and non-descriptor mode (which wipes out gbe and ME/AMT).
-					</li>
-					<li>
-						<s><b>See reference to HDA_SDO (disable descriptor security)</b></s> 
-						strap connected GPIO33 pin is it on ICH9-M (X200). HDA_SDO applies to later chipsets (series 6 or higher).
-						Disabling descriptor security also disables the ethernet according to sgsit. sgsit's method
-						involves use of 'soft straps' (see IRC logs below) instead of disabling the descriptor.
-					</li>
-					<li>
-						<b>and the location of GPIO33 on the x200s: (was an external link. Putting it here instead)</b>
-						<a href="images/x200/gpio33_location.jpg">images/x200/gpio33_location.jpg</a>
-						- it's above the number 7 on TP37 (which is above the big intel chip at the bottom)
-					</li>
-					<li>
-						The ME datasheet may not be for the mobile chipsets but it doesn't vary that much. 
-						This one gives some detail and covers QM67 which is what the X201 uses: 
-						<a href="http://www.intel.co.uk/content/dam/www/public/us/en/documents/datasheets/6-chipset-c200-chipset-datasheet.pdf">http://www.intel.co.uk/content/dam/www/public/us/en/documents/datasheets/6-chipset-c200-chipset-datasheet.pdf</a>
-					</li>
-				</ul>
-		
-		</div>
-		
-	</div>
-		
-	<div class="section">
-
-		<div class="subsection">
-
-			<h2 id="flashchips">Flash chips</h2>
-			
-				<ul>
-					<li>
-						Schematics for X200 laptop: <a href="http://pdf.datasheetarchive.com/indexerfiles/Datasheets-USER/DSAUPLD00006075.pdf">http://pdf.datasheetarchive.com/indexerfiles/Datasheets-USER/DSAUPLD00006075.pdf</a>
-						<b><s>- Page 20 and page 9 refer to SDA_HDO or SDA_HDOUT</s></b> only on series 6 or higher chipsets. ICH9-M (X200) does it with a strap connected to GPIO33 pin (see IRC notes below)<br/>
-						- According to page 29, the X200 can have any of the following flash chips:
-						<ul>
-							<li>ATMEL AT26DF321-SU 72.26321.A01 - this is a 32Mb (4MiB) chip</li>
-							<li>MXIC (Macronix?) MX25L3205DM2I-12G 72.25325.A01 - another 32Mb (4MiB) chip</li>
-							<li>MXIC (Macronix?) MX25L6405DMI-12G 41R0820AA - this is a 64Mb (8MiB) chip</li>
-							<li>Winbond W25X64VSFIG 41R0820BA - another 64Mb (8MiB) chip</li>
-						</ul>
-						sgsit says that the X200s with the 64Mb flash chips are (probably) the ones with AMT (alongside the ME), whereas
-						the 32Mb chips contain only the ME.
-					</li>
-					<li>
-						Schematics for X200s laptop: <a href="http://pdf.datasheetarchive.com/indexerfiles/Datasheets-USER/DSAUPLD00006104.pdf">http://pdf.datasheetarchive.com/indexerfiles/Datasheets-USER/DSAUPLD00006104.pdf</a>.
-					</li>
-				</ul>
-		
-		</div>
-		
-	</div>
-		
-	<div class="section">
-		
-		<h2 id="early_development_notes">Early development notes</h2>
-				
-<pre>
-<i>
-Start (hex)	End (hex)	Length (hex)	Area Name
------------	---------	------------	---------
-00000000	003FFFFF	00400000	Flash Image
-
-00000000	00000FFF	00001000	Descriptor Region
-00000004	0000000F	0000000C		Descriptor Map
-00000010	0000001B	0000000C		Component Section
-00000040	0000004F	00000010		Region Section
-00000060	0000006B	0000000C		Master Access Section
-00000060	00000063	00000004			CPU/BIOS
-00000064	00000067	00000004			Manageability Engine (ME)
-00000068	0000006B	00000004			GbE LAN
-00000100	00000103	00000004		ICH Strap 0
-00000104	00000107	00000004		ICH Strap 1
-00000200	00000203	00000004		MCH Strap 0
-00000EFC	00000EFF	00000004		Descriptor Map 2
-00000ED0	00000EF7	00000028		ME VSCC Table
-00000ED0	00000ED7	00000008			Flash device 1
-00000ED8	00000EDF	00000008			Flash device 2
-00000EE0	00000EE7	00000008			Flash device 3
-00000EE8	00000EEF	00000008			Flash device 4
-00000EF0	00000EF7	00000008			Flash device 5
-00000F00	00000FFF	00000100		OEM Section
-00001000	001F5FFF	001F5000	ME Region
-001F6000	001F7FFF	00002000	GbE Region
-001F8000	001FFFFF	00008000	PDR Region
-00200000	003FFFFF	00200000	BIOS Region
-
-Start (hex)	End (hex)	Length (hex)	Area Name
------------	---------	------------	---------
-00000000	003FFFFF	00400000	Flash Image
-
-00000000	00000FFF	00001000	Descriptor Region
-00000004	0000000F	0000000C		Descriptor Map
-00000010	0000001B	0000000C		Component Section
-00000040	0000004F	00000010		Region Section
-00000060	0000006B	0000000C		Master Access Section
-00000060	00000063	00000004			CPU/BIOS
-00000064	00000067	00000004			Manageability Engine (ME)
-00000068	0000006B	00000004			GbE LAN
-00000100	00000103	00000004		ICH Strap 0
-00000104	00000107	00000004		ICH Strap 1
-00000200	00000203	00000004		MCH Strap 0
-00000ED0	00000EF7	00000028		ME VSCC Table
-00000ED0	00000ED7	00000008			Flash device 1
-00000ED8	00000EDF	00000008			Flash device 2
-00000EE0	00000EE7	00000008			Flash device 3
-00000EE8	00000EEF	00000008			Flash device 4
-00000EF0	00000EF7	00000008			Flash device 5
-00000EFC	00000EFF	00000004		Descriptor Map 2
-00000F00	00000FFF	00000100		OEM Section
-00001000	00002FFF	00002000	GbE Region
-00003000	00202FFF	00200000	BIOS Region
-
-Build Settings
---------------
-Flash Erase Size = 0x1000
-
-</i>
-</pre>
-
-			<p>
-				It's a utility called 'Flash Image Tool' for ME 4.x that was used for this. You drag a complete
-				image into in and the utility decomposes the various components, allowing you to set soft straps.
-			</p>
-			<p>
-				This tool is proprietary, for Windows only, but was used to deblob the X200. End justified means, and
-				the utility is no longer needed since the ich9deblob utility (documented on this page) can now be
-				used to create deblobbed descriptors.
-			</p>
-
-	</div>
-
-	<div class="section">
-		
-		<h2 id="gbe_region">
-			GBE (gigabit ethernet) region in SPI flash
-		</h2>
-
-			<p>
-				Of the 8K, about 95% is 0xFF. 
-				The data is the gbe region is fully documented in this public datasheet:
-				<a href="http://www.intel.co.uk/content/dam/doc/application-note/i-o-controller-hub-9m-82567lf-lm-v-nvm-map-appl-note.pdf">http://www.intel.co.uk/content/dam/doc/application-note/i-o-controller-hub-9m-82567lf-lm-v-nvm-map-appl-note.pdf</a>
-			</p>
-
-			<p>
-				The only actual content found was:
-			</p>
-
-<pre>
-<i>
-00  1F  1F  1F  1F  1F  00  08  FF  FF  83  10  FF  FF  FF  FF  
-08  10  FF  FF  C3  10  EE  20  AA  17  F5  10  86  80  00  00  
-01  0D  00  00  00  00  05  06  20  30  00  0A  00  00  8B  8D  
-02  06  40  2B  43  00  00  00  F5  10  AD  BA  F5  10  BF  10  
-AD  BA  CB  10  AD  BA  AD  BA  00  00  00  00  00  00  00  00  
-00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  
-00  01  00  40  28  12  07  40  FF  FF  FF  FF  FF  FF  FF  FF  
-FF  FF  FF  FF  FF  FF  FF  FF  FF  FF  FF  FF  FF  FF  D9  F0  
-20  60  1F  00  02  00  13  00  00  80  1D  00  FF  00  16  00  
-DD  CC  18  00  11  20  17  00  DD  DD  18  00  12  20  17  00  
-00  80  1D  00  00  00  1F  
-</i>
-</pre>
-
-		<p>
-			The first part is the MAC address set to all 0x1F. It's repeated haly way through
-			the 8K area, and the rest is all 0xFF. This is all documented in the datasheet.
-		</p>
-		
-		<p>
-			The GBe region starts at 0x20A000 bytes from the *end* of a factory image and is 0x2000 bytes long.
-			In libreboot (deblobbed) the descriptor is set to put gbe directly after the initial 4K flash descriptor. 
-			So the first 4K of the ROM is the descriptor, and then the next 8K is the gbe region.
-		</p>
-
-		<div class="subsection">
-			
-			<h3 id="gbe_region_changemacaddress">GBE region: change MAC address</h3>
-
-				<p>
-					According to the datasheet, it's supposed to add up to 0xBABA but can actually be others on the X200.
-					<a href="https://communities.intel.com/community/wired/blog/2010/10/14/how-to-basic-eeprom-checksums">https://communities.intel.com/community/wired/blog/2010/10/14/how-to-basic-eeprom-checksums</a>
-				</p>
-				<p>
-					<i>&quot;One of those engineers loves classic rock music, so he selected 0xBABA&quot;</i>
-				</p>
-				<p>In honour of the song <i>Baba O'Reilly</i> by <i>The Who</i> apparently. We're not making this stuff up...</p>
-
-				<p>
-					0x3ABA, 0x34BA, 0x40BA and more have been observed in the main Gbe regions on the X200 factory.rom dumps.
-					The checksums of the backup regions match BABA, however. 
-				</p>
-				
-				<p>
-					By default, the X200 (as shipped by Lenovo) actually has an invalid main gbe checksum. The backup gbe region is correct,
-					and is what these machines default to. Basically, you should do what you need on the *backup* gbe region, and
-					then correct the main one by copying from the backup.
-				</p>
-				
-				<p>
-					Look at resources/utilities/ich9deblob/ich9deblob.c.
-				</p>
-					<ul>
-						<li>Add the first 0x3F 16bit numbers (unsigned) of the GBe descriptor together (this includes the checksum value)
-						and that has to add up to 0xBABA. In other words, the checksum is 0xBABA minus the total of the first
-						0x3E 16bit numbers (unsigned), ignoring any overflow.</li>
-					</ul>
-					
-		</div>
-		
-	</div>
-
-	<div class="section">
-		
-		<h2 id="flash_descriptor_region">Flash descriptor region</h2>
-			
-			<p>
-				<a href="http://www.intel.co.uk/content/dam/doc/datasheet/io-controller-hub-9-datasheet.pdf">http://www.intel.co.uk/content/dam/doc/datasheet/io-controller-hub-9-datasheet.pdf</a>
-				from page 850 onwards. This explains everything that is in the flash descriptor, which can be used to understand what libreboot
-				is doing about modifying it.
-			</p>
-				
-			<p>
-				How to deblob:
-			</p>
-				<ul>
-					<li>patch the number of regions present in the descriptor from 5 - 3</li>
-					<li>originally descriptor + bios + me + gbe + platform</li>
-					<li>modified = descriptor + bios + gbe</li>
-					<li>the next stage is to patch the part of the descriptor which defines the start and end point of each section</li>
-					<li>then cut out the gbe region and insert it just after the region</li>
-					<li>all this can be substantiated with public docs (ICH9 datasheet)</li>
-					<li>the final part is flipping 2 bits. Halting the ME via 1 MCH soft strap and 1 ICH soft strap</li>
-					<li>the part of the descriptor described there gives the base address and length of each region (bits 12:24 of each address)</li>
-					<li>to disable a region, you set the base address to 0xFFF and the length to 0</li>
-					<li>and you change the number of regions from 4 (zero based) to 2</li>
-				</ul>
-				
-			<p>
-				There's an interesting parameter called 'ME Alternate disable', which allows the ME to only handle hardware errata in the southbridge,
-				but disables any other functionality. This is similar to the 'ignition' in the 5 series and higher but using the standard firmware
-				instead of a small 128K version. Useless for libreboot, though.
-			</p>
-				
-			<p>
-				To deblob the x200, you chop out the platform and ME regions and correct the addresses in flReg1-4.
-				Then you set meDisable to 1 in ICHSTRAP0 and MCHSTRAP0.
-			</p>
-				
-			<p>How to patch the descriptor from the factory.rom dump</p>
-				<ul>
-					<li>map the first 4k into the struct (minus the gbe region)</li>
-					<li>set NR in FLMAP0 to 2 (from 4)</li>
-					<li>adjust BASE and LIMIT in flReg1,2,3,4 to reflect the new location of each region (or remove them in the case of Platform and ME)</li>
-					<li>set meDisable to 1/true in ICHSTRAP0 and MCHSTRAP0</li>
-					<li>extract the 8k GBe region and append that to the end of the 4k descriptor</li>
-					<li>output the 12k concatenated chunk</li>
-					<li>Then it can be dd'd into the first 12K part of a coreboot image.</li>
-					<li>the GBe region always starts 0x20A000 bytes from the end of the ROM</li>
-				</ul>
-					
-			<p>
-				This means that libreboot's descriptor region will simply define the following regions:
-			</p>
-				<ul>
-					<li>descriptor (4K)</li>
-					<li>gbe (8K)</li>
-					<li>bios (rest of flash chip. CBFS also set to occupy this whole size)</li>
-				</ul>
-
-			<p>
-				The data in the descriptor region is little endian, and it represents bits 24:12 of the address
-				(bits 12-24, written this way since bit 24 is nearer to left than bit 12 in the binary representation).
-			</p>
-			<p>
-				So, <i>x &lt;&lt; 12 = address</i>
-			</p>
-			<p>
-				If it's in descriptor mode, then the first 4 bytes will be 5A A5 F0 0F.
-			</p>
-				
-	</div>
-		
-		
-	<div class="section">
-		
-		<h2 id="platform_data_region">platform data partition in boot flash (factory.rom / lenovo bios)</h2>
-			
-			<p>
-				Basically useless for libreboot, since it appears to be a blob.
-				Removing it didn't cause any issues in libreboot.
-			</p>
-			<p>
-				This is a 32K region from the factory image. It could be data
-				(non-functional) that the original Lenovo BIOS used, but we don't know.
-			</p>
-		
-			<p>
-				It has only a 448 byte fragment different from 0x00 or 0xFF.
-			</p>
-		
-	</div>
-
-	<div class="section">
-
-		<p>
-			Copyright &copy; 2014, 2015 Francis Rowe &lt;info@gluglug.org.uk&gt;<br/>
-			This document is released under the Creative Commons Attribution-ShareAlike 4.0 International Public License and all future versions.
-			A copy of the license can be found at <a href="../license.txt">../license.txt</a>.
-		</p>
-
-		<p>
-			This document 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 <a href="../license.txt">../../license.txt</a> for more information.
-		</p>
-		
-	</div>
-
-</body>
-</html>