265 lines
10 KiB
Markdown
265 lines
10 KiB
Markdown
---
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title: Flashing the Dell Latitude E6400
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x-toc-enable: true
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...
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Introduction
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============
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Initial flashing instructions for the E6400.
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**ROM images are available in the [Libreboot 20230423
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release](../../news/libreboot20230423.md), and subsequent releases.**
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**Variants with Nvidia GPUs are NOT supported in Libreboot 20230423
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or 20230625.**
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**Variants with Nvidia GPUs are supported in Libreboot 20231021 or higher.**
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This guide is for those who want libreboot on their Latitude E6400 while
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they still have the original Dell BIOS present. This guide can also be
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followed (adapted) if you brick your E6400, and you want to recover it.
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Variants (nvidia or intel graphics)
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========
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Dell E6400, E6400 XFR and E6400 ATG are all believed to work. The flashing
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instructions are identical, on all of them.
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100% Free Software possible (Intel GPU)
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=========================
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This board can boot entirely *free software* in the flash. The hardware is similar
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to that of ThinkPad X200, T400 etc where no-ME setup is possible.
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No-microcode setup feasible
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----------------------------
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The
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[microcode bugfixes/mitigations added for GM45](../../news/gm45microcode.md)
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are also applicable to this board, for users who are interested. Read that
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article for more information.
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Libreboot still recommends that boot with CPU microcode updates, by default,
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for all the reasons described by Libreboot's [Binary Blobs Reductions
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Policy](../../news/policy.md) but this board run reasonably well without them.
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A note about GPUs
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-----------------
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We *confirm that* the Nvidia models are PM45, and therefore will require a VGA
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ROM for initialisation. This is supported in Libreboot *after* the 20230625
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release, if you compile from source; the `e6400_4mb` target can work on both
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variants, but will need the Nvidia VGA ROM inserted to work on Nvidia models.
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This insertion is handled automatically in newer lbmk revisions, during build
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time, or you can [insert it on a release rom
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after 20230625](ivy_has_common.md). - **A Video BIOS Option
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ROM is used, in this configuration. Libreboot's
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build system automatically downloads this at build time, or it can handle that
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for you in the same way if it was scrubbed from a release ROM.**
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Models with Intel graphics are GM45, and fully supported in Libreboot
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with native initialisation; ROM images are available since Libreboot 20230423.
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**The Intel video initialisation is libre, implemented with publicly available
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source code via libgfxinit, from the coreboot project.**
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Flash chip size {#flashchips}
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===============
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Use this to find out:
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flashprog -p internal
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We believe most/all are 4MB (32Mb) flash sizes, but larger ROM images are
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provided for people who wish to upgrade.
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MAC address {#macaddress}
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===========
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The MAC address is part of the ROM image that you're flashing. You can change
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it at any time, before or after you've flashed Libreboot; you can also change
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it in the *Dell* BIOS, if you really want to. This is for the onboard gigabit
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ethernet device.
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Refer to [mac\_address.md](../hardware/mac_address.md).
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It is recommended that you run *nvmutil*. See:
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[nvmutil usage manual](nvmutil.md)
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The `nvmutil` software is specifically designed for changing MAC addresses,
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and it implements a few more safeguards (e.g. prevents multicast/all-zero
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MAC addresses) and features (MAC address randomisation, ability to correct or
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intententionally corrupt(disable) GbE sections if you wish, swap GbE parts,
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etc). You can *also* run ich9gen, if you wish:
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[ich9gen usage manual](ich9utils.md)
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Intel GPU: libre video initialisation available
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===============================================
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Libreboot uses coreboot's native `libgfxinit` on this platform, for
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variants with Intel graphics.
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For Intel GPU variants, Libreboot 20230423 and up have full support. Simply
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flash a release ROM, if you wish.
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Nvidia GPU: Video BIOS Option ROM required
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==========================================
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**NOTE: `nouveau` (Linux video driver) is unstable when it was last tested, in
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this setup. Either specify `nomodeset` kernel option, or use another
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operating system such as OpenBSD. More information is written on the
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[E6400 hardware page](../hardware/e6400.md), regarding OS compatibility.**
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This is *unavailable* in Libreboot 20230423 and 20230625, but a future release
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will contain support for these variants; for now, you must compile Libreboot
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from Git. It is available in the default `master` branch of lbmk, under
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build target `e6400_4mb` - either build from source and it gets inserted
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automatically, or you can [insert it
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manually](ivy_has_common.md) on future release ROMs past Libreboot 20230625.
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An earlier experimental revision existed in an experimental branch of
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lbmk, as build target `e6400nvidia_4mb`, but it was decided that since SeaBIOS
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is the only payload anyway on this board, having just a single build target is
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more efficient if that can (and it does) support both variants. It was therefore
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added to the master branch.
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Actual installation is the same as with regular E6400 (Intel GPU) variants.
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Refer to the [E6400 flashing instructions](../docs/install/e6400.md).
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Problems with Linux video drivers on Nvidia
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-------------------------------------------
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Technically, there is nothing wrong with Libreboot itself, but the `nouveau`
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driver hangs/crashes on Nvidia models, after booting Linux with the Nvidia VGA
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ROM loaded from coreboot.
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Until that is fixed, you must specify `nomodeset` in your Linux kernel boot
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parameters.
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Refer to [development
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discussion](https://codeberg.org/libreboot/lbmk/issues/14#issuecomment-907758)
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for more information - [testers needed!](../maintain/testing.md)
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The *Intel* GPU variant of E6400 is more stable, and works fully, with full
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acceleration - the Nvidia models can only be run in software, and the BSD
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systems only have the slow `nv` driver (which is nonetheless stable).
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Nvidia errata
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-------------
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**BEFORE** you flash it, please know that support for Nvidia variants is
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a **proof of concept**. Known issues exist. For more information, please
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read the [E6400 info page](../hardware/e6400.md), [E6400 nvidia news
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page](../../news/e6400nvidia.md) and the [development discussion via
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codeberg](https://codeberg.org/libreboot/lbmk/issues/14#issuecomment-907758).
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How to flash internally (no diassembly)
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=======================================
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Warning for BSD users
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---------------------
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**NOTE (15 October 2023): The util is now called `dell-flash-unlock`, but it
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was previously called `e6400-flash-unlock`. Links have been updated.**
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BSD *boots* and works properly on these machines, but take note:
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Nicholas's [dell-flash-unlock](https://browse.libreboot.org/lbmk.git/plain/util/dell-flash-unlock/dell_flash_unlock.c)
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utility has been ported to OpenBSD, but *other* BSDs are assumed unsupported for
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now.
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NOTE: Libreboot standardises on [flashprog](https://flashprog.org/wiki/Flashprog)
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now, as of 27 January 2024, which is a fork of flashrom.
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NOTE: BSD is mentioned above, but the only BSD tested for `dell-flash-unlock`
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is OpenBSD, as of 15 October 2023.
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Flashing from Linux
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-------------------
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MAKE SURE you boot with this Linux kernel parameter: `iomem=relaxed` - this
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disables memory protections, permitting `/dev/mem` access needed by flashprog.
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The flash is memory mapped and flashprog accesses it via `/dev/mem`.
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You can flash Libreboot directly from the vendor (Dell) BIOS, without taking
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the machine apart. It can be done entirely from Linux. It will probably also
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work on BSD systems, but it has only been testing on Linux thus far.
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**NOTE (15 October 2023): The util is now called `dell-flash-unlock`, but it
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was previously called `e6400-flash-unlock`. Links have been updated.**
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Check `util/dell-flash-unlock` in the `lbmk.git` repository, or in release
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archives for Libreboot releases from 20230423 onwards.
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Go in there:
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cd util/dell-flash-unlock
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make
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With this program, you can unlock the flash in such a way where everything
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is writeable. Information about how to use it is in the `README.md` file which
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is included in that program's directory, or you can read it online here:
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<https://browse.libreboot.org/lbmk.git/plain/util/dell-flash-unlock/README.md>
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Literally just run that program, and do what it says. You run it once, and shut
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down, and when you do, the system brings itself back up automatically. Then
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you run it and flash it unlocked. Then you run it again. The source code is
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intuitive enough that you can easily get the gist of it; it's writing some EC
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commands and changing some chipset config bits. The EC on this machine is
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hooked up to the `GPIO33` signal, sometimes called `HDA_DOCK_EN`, which sets
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the flash descriptor override thus disabling any flash protection by the IFD.
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It also bypasses the SMM BIOS lock protection by disabling SMIs, and Dell's
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BIOS doesn't set any other type of protection either such as writing to
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Protected Range registers.
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When you flash it, you can use this command:
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flashprog -p internal -w libreboot.rom
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Where `libreboot.rom` is your E6400 ROM. *Make sure* it's the right one.
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If flashprog complains about multiple flash chips detected, just pick one of
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them (doesn't matter which one). On *most* Dell machines, the most correct
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would probably be this option in flashprog: `-c MX25L3205D/MX25L3208D`.
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So:
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flashprog -p internal -w libreboot.rom -c MX25L3205D/MX25L3208D
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When you see flashprog say `VERIFIED` at the end, that means the flash was
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successful. If you don't see that, or you're unsure, please [contact the
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Libreboot project via IRC](../../contact.md).
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BACK UP THE FACTORY BIOS
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========================
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The `-w` option flashes `libreboot.rom`. You may consider *backing up* the
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original Dell BIOS first, using the -r option:
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flashprog -p internal -r backup.rom -c MX25L3205D/MX25L3208D
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Do this while in a flashable state, after the 2nd run of `dell-flash-unlock`.
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Make sure the `backup.rom` file gets backed up to an external storage media,
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not the E6400 itself.
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With this method, you can probably flash it within 5 minutes. Again, zero
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disassembly required!
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How to flash externally
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=========================
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Refer to [spi.md](spi.md) as a guide for external re-flashing.
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The SPI flash chip shares a voltage rail with the ICH9 southbridge, which is
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not isolated using a diode. As a result, powering the flash chip externally
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causes the ICH9 to partially power up and attempt to drive the SPI clock pin
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low, which can interfere with programmers such as the Raspberry Pi. See
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[RPi Drive Strength](spi.md#rpi-drive-strength) for a workaround.
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Have a look online for videos showing how to disassemble, if you wish to
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externally re-flash.
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