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Discuss EFI Partition Bootloader - Zero-modification installs on Intel SSE2 or better! at the Installation -; *** Special thanks to Turbo, Dense, dfe, zef and the rest of the chameleon team ...
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    Advanced Array munky's Avatar

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    Default EFI Partition Bootloader - Zero-modification installs on Intel SSE2 or better!

    *** Special thanks to Turbo, Dense, dfe, zef and the rest of the chameleon team for making this possible... ***

    ** DEPRECATION NOTICE: This functionality is coming to a Chameleon release very soon. Once Chameleon supports this approach, this project will be retired. Thanks to everyone who uses this bootloader, thanks for the support and the kind words **


    - DSDT override patch now integrated (v6) (credit and huge thanks to mackerintel!), for 10.5.6 support.

    - Source code attached. Didn't get round to commenting and cleaning up. Suffice to say, 99% of the work was done by dfe, turbo, zef and the team.

    - v6 is a stopgap solution in case 10.5.6 hits before the new Chameleon is released. It supports DSDT.aml file in root of EFI partition.
    - v5.1 fixes an error in the packaging - in v5, 'boot' was the v5 version, but 'boot-turbo-munky.bin' was still v4.
    - v5 has updated FSB detection code from Chameleon
    - Basic dual booting is possible. Just hit esc at darwin bootprompt and enter 81 for 2nd drive, 82 for 3rd...
    - v4 now supports JMicron ATA
    - v3 now supports Boot.plist on the EFI partition
    - v2 now supports device-properties (aka EFI Strings) in !

    A *BIG* thank u to Chameleon team for sharing their great sources - porting was a cinch!

    The release of dfe's amazing boot-132 loader was an eye-opener for many of us in the community. The fact we can boot the shrink-wrapped, unmodified retail Leopard DVD on modern Intel machines (and, it turned out, on any SSE2 or better Intel machine) means we have the ability to boot a totally unmodified OS X. (The install DVD of course boots into Mac OS X).

    However, it seemed most people didnt realise the gravity of this, or simply thought 'oh thats nice, use retail to install. ok, back to hacking in /System/Library/Extensions....'.

    This is, imho, the wrong approach.

    The *right* approach is to leave /System/Library/Extensions alone, and apply patches and modifications to the system from a different vector, just like boot-132.

    This is, in my humble opinion, the ultimate hackintosh install method.

    What benefit does that give you?

    * Well, how about trouble-free Software Update direct from Apple? Even on SSE2 Intels? (and AMDs when Voodoo 9.5.0 final comes out...)

    * How about being able to completely erase and reinstall the OS without breaking ur carefully-assembled patches?

    * How about being able to boot *the same disk* on a real mac and your hack?

    * How about having a completely outwith the installed OS?

    all without losing the usual EFI strings goodness you've come to expect from a bootloader... (Thx to Chameleon team!)

    So munky, where's the beef?

    Well first, a little history...

    When you format a GPT (GUID Partition Table) disk in Disk Utility, there is always a hidden, 200Mb partition created as the first partition on the disk. This is supposed to be a 200Mb FAT-32 partition used for storing EFI drivers, and is mandated by the EFI / GPT specs.

    Apple honours the specs and so puts the 200Mb partition there. However, (and this is the important part...) *Apple dont use it!*

    So we can hijack it and use it for our own ends.

    You're still not getting to the point...

    Ok ok. So here goes. We repurpose the EFI system partition to hold our kexts (and, if necessary, kernels) so we dont have to change the main installation. AT ALL.

    The nice thing is that Mac OS X and Disk Utility (at least the graphical version) will continue to hide the EFI partition, as you're not supposed to see it. But you also have the option to mount it if you need to make changes. And, of course, on ALL systems (currently Intel SSE2 and better), Software Update can be used without much chance (if any) of breakage.

    Hmmm... ok i'm sold. So how do I do it?

    Well, first grab the attached zip file. This contains a modified version of boot0 from chameleon, the unmodified boot1h from chameleon, and a fork of dfe's boot2. boot0 has been changed to look for the EFI system partition, and boot2 has been modified to load extra kexts from the EFI partition.

    Warnings, Pre-Requisites

    *** YOU'RE DOING THIS AT YOUR OWN RISK BTW. Dont bitch at me if your computer explodes and kills your cat. ***

    You are probably best to try getting your system to boot a retail disc with boot-132 before you attempt this method. Getting it to work with boot-132 is good practice for maintaining a 'patches-free' system, and will give you a good idea of the kexts you'll need for your particular system.

    NB: YOU CANNOT USE ANYTHING OTHER THAN A RETAIL DVD. Dont try a restore or drop-in disc, they WILL NOT WORK.

    Another BIG NOTE: existing chameleon, pc-efi etc bootloaders can seriously mess this up. If you have problems please try with only one hd attached and make sure u *completely destroy* the existing partitions before install.

    In the following guide, i've used the convention of diskXsY. Please understand, you should NEVER type diskX or diskXsY - X and Y are placeholders and need to be replaced with proper values. On most systems installed to the first hard disk, this will be disk0. Partition 1 on any GPT disk formatted by Disk Utility will be the 200Mb EFI partition. So in most cases, we'll be talking about disk0, rdisk0 and disk0s1.

    Finally, please make sure you read and re-read this guide before starting. If you are unsure about any of the steps, then my advice is DONT DO IT. Wait for someone to turn these set of instructions into an easy-to-use installer or something.
    Last edited by munky; 11-30-2008 at 03:19 PM.
    Intel D945GTP / Pentium D920 / X1800XL / 191 Geekbench
    MacBook Pro / Core Duo 1.83Ghz / X1600 128Mb / 160 Geekbench

  2. #2
    Advanced Array munky's Avatar

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    Finally, the beef!

    So, best practice is to use a boot-132 disc and install a fresh Leopard installation onto a GPT disk from retail. Lets call this 'Phase 0'. You find or create a boot-132 disc capable of booting to the installer from a retail Leo disc on your particular setup. Go into Disk Utility from the menu and partition one of your drives as GUID Partition Table type and create at least one partition big enough for Leopard. Look elsewhere for questions about boot-132 (like the links above). This guide assumes you can, and have, booted the retail Leo disc and installed to a GPT disk.

    Once you've done that, boot into your new install via boot-132, and do the following:

    Phase 1: Reformatting the EFI System Partition.

    1) Open Terminal

    2) sudo -s (and type in your password)

    3) diskutil info / | grep Identifier - this tells you the values for diskXsY for '/', which is the currently-booted system. (If you're doing this on a disk other than the one you've booted from, you need to modify accordingly.)

    4) diskutil list - diskXs1 should be called EFI. this is the hidden EFI partition on your target drive.

    5) diskutil eraseVolume "HFS+" "EFI" /dev/diskXs1 - now, be *VERY* sure this is the correct drive. this will format the EFI partition as HFS+. (NB After erasing it will try to mount it, but will fail with "Could not mount disk0s1 with name after erase". Ignore this).

    Phase 2: Installing the modified bootloader.

    1) Extract the attached zip file to a directory (Safari might do this for you).

    2) in terminal, cd to that directory (the one containing boot0, boot1h, boot-turbo-munky.bin and fdisk)

    3) ./fdisk -f boot0 -u -y /dev/rdiskX - this puts the stage 0 bootloader onto the target disk

    4) dd if=boot1h of=/dev/rdiskXs1 - this puts the stage 1 bootloader onto the target partition (EFI partition)

    5) mkdir /Volumes/EFI

    6) mount_hfs /dev/diskXs1 /Volumes/EFI

    7) cp boot-turbo-munky.bin /Volumes/EFI/boot

    8) cp /Volumes/EFI/

    Phase 3: Make the disk bootable

    This stage may not be necessary on some boards, but on my Intel board and Bad Axe boards it is. If you skip this step and your system wont boot, try doing it. That said, doing this on boards which DONT need it will do no harm so my logic is do it anyway.

    Type the fdisk command and then each line as shown:

    1) ./fdisk -e /dev/rdiskX (NB: Ignore any fdisk: could not open MBR file /usr/standalone/i386/boot0: No such file or directory error)

    2) f 1

    3) w

    4) q

    Phase 4: Setup your new bootloader EFI partition

    1) Setup directory tree:

    mkdir -p /Volumes/EFI/System/Booter
    mkdir /Volumes/EFI/Extensions
    mkdir /Volumes/EFI/.fseventsd

    2) touch /Volumes/EFI/.fseventsd/no_log - this prevents the File System Events Daemon (fseventsd) from logging on this volume, which can cause the EFI partition to become unmountable.

    3) copy necessary extensions into /Volumes/EFI/Extensions (eg:

    cd <directory containing kexts>
    cp -R *.kext /Volumes/EFI/Extensions)

    4) if necessary, copy patched kernel into /Volumes/EFI/ (eg:

    cd <directory containing the wonderful Voodoo kernel)
    cp mach_kernel.voodoo /Volumes/EFI/

    5) cd /Volumes/EFI
    chmod +x
    sudo ./ - this will build a kextcache in /System/Booter. Please check update.log for any errors. (Dependency warnings are ok and normal - the dependencies will be available at boot time from /System/Library/Extensions).

    6) umount /Volumes/EFI (If this fails, do umount -f /Volumes/EFI).

    7) rm -rf /Volumes/EFI

    8) If your machine cannot use the vanilla kernel, at this point you must take a note of your install's UUID. Open Disk and click on the partition containing your fresh install. Click the blue 'I' information icon and look for Universal Unique Identifier. This should be a fairly long hex string. Write this down somewhere on a piece of paper. (not in a text file on the computer!)

    You should be ready to boot at this stage.

    Phase 5: Test boot!

    So this differs slightly depending on whether you have a Core cpu or not - that is, whether you can (or choose to) run the vanilla kernel or a patched kernel.

    If you boot the vanilla kernel, you should just have to press Return, as the bootloader should find your installed OS.

    If you boot a patched kernel, the magic you need is this:

    bt(0,0)/mach_kernel.voodoo -v boot-uuid=<the install's uuid you wrote down earlier>.

    With a bit of luck, you'll boot up into your nice shiny new Leopard install, and be able to use Software Update without worrying.

    Phase 6: Post-Install - Kexts, EFI strings, Boot.plist, Troubleshooting


    So you booted back up, but you maybe dont have gfx support, or are missing some nice LAN kext... To mount EFI:

    sudo -s
    mkdir /Volumes/EFI
    mount_hfs /dev/diskXs1 /Volumes/EFI

    to install new kexts:

    sudo -s
    cd path/to/kext
    cp -R Blah.kext /Volumes/EFI/Extensions
    cd /Volumes/EFI

    EFI Strings and

    v3 of the bootloader supports a file located on the EFI partition. You can place this in either of these two locations:


    Its your choice, and it makes no difference. If you have both it will favour the one in /Library/Pref.....

    This is, of course, the place to put EFI strings - aka device properties - strings. This bootloader supports EFI strings in the same format as Chameleon expects them.


    If you ever get 'mount_hfs: Invalid argument' when trying to mount the EFI partition, do this to fix it:

    fsck_hfs /dev/disxXs1.

    *** Always unmount the EFI partition before rebooting, to stop this happening! umount /Volumes/EFI! ***


    [s]On my system (a Pentium D920 currently, though after tomorrow it'll be a Core 2 Duo), there is actually one modification to the installed system, and that is the file. I simply couldnt be bothered typing out the uuid every time I booted the machine, so I put my boot parameters into that plist file.[/s] v3 supports a on the EFI partition

    I also have a vanilla installation on a USB drive which I share between two real macs (my home MacBook Pro and my work MacBook Pro) as well as my hack. I have the necessary kexts and kernels on the EFI partition (remember, the real macs ignore this partition), and to boot it on my hackintosh, [s]i just have to type in the correct parameters for booting, ie:

    bt(0,0)/mach_kernel.voodoo boot-uuid=<blah>.[/s] v3 supports on EFI.

    One thing - you can actually use rd=diskXsY to specify the boot device. I prefer using boot-uuid because that wont break if I change the configuration of hard disks on my machine, whereas the diskXsY values could.

    Another thing, for pre-Core users, please keep the relevant System.kext on the EFI partition for the kernel you wish to use. For example, my hackintosh has mach_kernel.voodoo (9.4.0 kernel for 10.5.4), and the 9.4.0 (10.5.4) System.kext in /System/Booter/Extensions.mkext. These are used in preference to the kernel and System.kext on the installation, which are both vanilla 9.5.0 (10.5.5) versions. This means USB mounting etc wont break.

    Dual- Triple- Quadruple-.... Booting!

    Since this bootloader is based on dfe, you can hit escape at the darwin boot prompt and enter a new bios device id to boot from. If you have a 2nd hard disk with Windows, you can hit esc, type 81 and enter, and it should show the darwin prompt with 'Foreign OS'. Hit enter to boot Windows

    Background Reading

    If this stuff is new to you, or you're having trouble following, please read these threads first:

    Source Code

    Now attached. Apologies for not having commented it all properly, or even doing basic cleaning up. All work by dfe, turbo, zef, chameleon team with a couple small bits and bobs from me.

    Changelog and Downloads

    v1 is the original bootloader, comprising Turbo's changes to the dfe bootloader. Deprecated by v2
    v2 supports EFI strings in apply them in chameleon style - ie <device-properties> tag. Deprecated by v3
    v3 supports a on the EFI partition (in root or in /Library/Preferences/SystemConfiguration), boots faster, and integrates the script
    v4 supports JMicron and other 'troublesome' ATA
    v5 adds the improved FSB detection code from Chameleon
    v5.1 is a repackaging of v5 to correct a misnamed file. No other changes.

    v5.1 Download here: (requires InsanelyMac login).
    v6 Download here: (requires InsanelyMac login).
    v5.1 Source code: (requires InsanelyMac login).
    Last edited by munky; 11-30-2008 at 03:18 PM.
    Intel D945GTP / Pentium D920 / X1800XL / 191 Geekbench
    MacBook Pro / Core Duo 1.83Ghz / X1600 128Mb / 160 Geekbench

  3. #3
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    Post stucked!

    Nice work munky and all envolved from toh/chameleon guys.

    If you just want to support with a donation click here.

    Twitter: @f41qu3 @hackint0sh @hmbt_org @iphone_dev

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    Quote Originally Posted by f41qu3 View Post
    Post stucked!

    Nice work munky and all envolved from toh/chameleon guys.

    Where can I find the attached modified files that were referred to?

  5. #5
    Hackint0sh Moderator Array icchansan's Avatar

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    Check here the original thread
    HP Pavilion Elite m9250f
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    If you just want to support with a donation click here

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    Question Please help me with boot 132 config


    I asked this on insanelymac and know one could help. I want to modify the syslinux.cfg file that i use from my USB to boot leopard to automatically boot my leopard install that is on hd(1,1)id 81, ie i don't want to have to select the Leopard partition when Boot 132 starts, I want to power up and automatically get into leopard. The leopard partition is the only drive in the computer. Currently this is how the file is Set. If anyone has suggestions it would be greatly appreciated.

    PROMPT 0
    DEFAULT /mboot.c32 /boot --- /initrd.img
    APPEND biosdev=81


  7. #7
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    Is there any way that this command line work in Darwin could be ported to the Linux Ubuntu Terminal???



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