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354332ee44
Claim an ID number for Xen in the LOADER_TYPE field. Also, keep the table in zero-page.txt consistent with boot.txt. [hpa says: 6 was skipped because I couldn't rule out that it hadn't been unofficially used. It seemed easier to skip it for now.] Signed-off-by: Jeremy Fitzhardinge <jeremy@xensource.com> Acked-by: "H. Peter Anvin" <hpa@zytor.com> Signed-off-by: Andrew Morton <akpm@osdl.org> Signed-off-by: Linus Torvalds <torvalds@osdl.org>
452 lines
17 KiB
Plaintext
452 lines
17 KiB
Plaintext
THE LINUX/I386 BOOT PROTOCOL
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----------------------------
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H. Peter Anvin <hpa@zytor.com>
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Last update 2005-09-02
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On the i386 platform, the Linux kernel uses a rather complicated boot
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convention. This has evolved partially due to historical aspects, as
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well as the desire in the early days to have the kernel itself be a
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bootable image, the complicated PC memory model and due to changed
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expectations in the PC industry caused by the effective demise of
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real-mode DOS as a mainstream operating system.
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Currently, four versions of the Linux/i386 boot protocol exist.
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Old kernels: zImage/Image support only. Some very early kernels
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may not even support a command line.
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Protocol 2.00: (Kernel 1.3.73) Added bzImage and initrd support, as
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well as a formalized way to communicate between the
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boot loader and the kernel. setup.S made relocatable,
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although the traditional setup area still assumed
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writable.
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Protocol 2.01: (Kernel 1.3.76) Added a heap overrun warning.
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Protocol 2.02: (Kernel 2.4.0-test3-pre3) New command line protocol.
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Lower the conventional memory ceiling. No overwrite
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of the traditional setup area, thus making booting
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safe for systems which use the EBDA from SMM or 32-bit
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BIOS entry points. zImage deprecated but still
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supported.
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Protocol 2.03: (Kernel 2.4.18-pre1) Explicitly makes the highest possible
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initrd address available to the bootloader.
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Protocol 2.04: (Kernel 2.6.14) Extend the syssize field to four bytes.
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**** MEMORY LAYOUT
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The traditional memory map for the kernel loader, used for Image or
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zImage kernels, typically looks like:
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0A0000 +------------------------+
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| Reserved for BIOS | Do not use. Reserved for BIOS EBDA.
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09A000 +------------------------+
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| Stack/heap/cmdline | For use by the kernel real-mode code.
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098000 +------------------------+
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| Kernel setup | The kernel real-mode code.
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090200 +------------------------+
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| Kernel boot sector | The kernel legacy boot sector.
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090000 +------------------------+
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| Protected-mode kernel | The bulk of the kernel image.
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010000 +------------------------+
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| Boot loader | <- Boot sector entry point 0000:7C00
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001000 +------------------------+
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| Reserved for MBR/BIOS |
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000800 +------------------------+
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| Typically used by MBR |
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000600 +------------------------+
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| BIOS use only |
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000000 +------------------------+
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When using bzImage, the protected-mode kernel was relocated to
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0x100000 ("high memory"), and the kernel real-mode block (boot sector,
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setup, and stack/heap) was made relocatable to any address between
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0x10000 and end of low memory. Unfortunately, in protocols 2.00 and
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2.01 the command line is still required to live in the 0x9XXXX memory
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range, and that memory range is still overwritten by the early kernel.
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The 2.02 protocol resolves that problem.
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It is desirable to keep the "memory ceiling" -- the highest point in
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low memory touched by the boot loader -- as low as possible, since
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some newer BIOSes have begun to allocate some rather large amounts of
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memory, called the Extended BIOS Data Area, near the top of low
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memory. The boot loader should use the "INT 12h" BIOS call to verify
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how much low memory is available.
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Unfortunately, if INT 12h reports that the amount of memory is too
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low, there is usually nothing the boot loader can do but to report an
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error to the user. The boot loader should therefore be designed to
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take up as little space in low memory as it reasonably can. For
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zImage or old bzImage kernels, which need data written into the
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0x90000 segment, the boot loader should make sure not to use memory
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above the 0x9A000 point; too many BIOSes will break above that point.
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**** THE REAL-MODE KERNEL HEADER
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In the following text, and anywhere in the kernel boot sequence, "a
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sector" refers to 512 bytes. It is independent of the actual sector
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size of the underlying medium.
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The first step in loading a Linux kernel should be to load the
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real-mode code (boot sector and setup code) and then examine the
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following header at offset 0x01f1. The real-mode code can total up to
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32K, although the boot loader may choose to load only the first two
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sectors (1K) and then examine the bootup sector size.
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The header looks like:
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Offset Proto Name Meaning
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/Size
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01F1/1 ALL(1 setup_sects The size of the setup in sectors
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01F2/2 ALL root_flags If set, the root is mounted readonly
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01F4/4 2.04+(2 syssize The size of the 32-bit code in 16-byte paras
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01F8/2 ALL ram_size DO NOT USE - for bootsect.S use only
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01FA/2 ALL vid_mode Video mode control
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01FC/2 ALL root_dev Default root device number
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01FE/2 ALL boot_flag 0xAA55 magic number
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0200/2 2.00+ jump Jump instruction
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0202/4 2.00+ header Magic signature "HdrS"
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0206/2 2.00+ version Boot protocol version supported
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0208/4 2.00+ realmode_swtch Boot loader hook (see below)
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020C/2 2.00+ start_sys The load-low segment (0x1000) (obsolete)
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020E/2 2.00+ kernel_version Pointer to kernel version string
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0210/1 2.00+ type_of_loader Boot loader identifier
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0211/1 2.00+ loadflags Boot protocol option flags
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0212/2 2.00+ setup_move_size Move to high memory size (used with hooks)
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0214/4 2.00+ code32_start Boot loader hook (see below)
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0218/4 2.00+ ramdisk_image initrd load address (set by boot loader)
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021C/4 2.00+ ramdisk_size initrd size (set by boot loader)
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0220/4 2.00+ bootsect_kludge DO NOT USE - for bootsect.S use only
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0224/2 2.01+ heap_end_ptr Free memory after setup end
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0226/2 N/A pad1 Unused
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0228/4 2.02+ cmd_line_ptr 32-bit pointer to the kernel command line
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022C/4 2.03+ initrd_addr_max Highest legal initrd address
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(1) For backwards compatibility, if the setup_sects field contains 0, the
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real value is 4.
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(2) For boot protocol prior to 2.04, the upper two bytes of the syssize
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field are unusable, which means the size of a bzImage kernel
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cannot be determined.
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If the "HdrS" (0x53726448) magic number is not found at offset 0x202,
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the boot protocol version is "old". Loading an old kernel, the
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following parameters should be assumed:
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Image type = zImage
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initrd not supported
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Real-mode kernel must be located at 0x90000.
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Otherwise, the "version" field contains the protocol version,
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e.g. protocol version 2.01 will contain 0x0201 in this field. When
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setting fields in the header, you must make sure only to set fields
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supported by the protocol version in use.
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The "kernel_version" field, if set to a nonzero value, contains a
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pointer to a null-terminated human-readable kernel version number
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string, less 0x200. This can be used to display the kernel version to
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the user. This value should be less than (0x200*setup_sects). For
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example, if this value is set to 0x1c00, the kernel version number
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string can be found at offset 0x1e00 in the kernel file. This is a
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valid value if and only if the "setup_sects" field contains the value
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14 or higher.
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Most boot loaders will simply load the kernel at its target address
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directly. Such boot loaders do not need to worry about filling in
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most of the fields in the header. The following fields should be
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filled out, however:
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vid_mode:
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Please see the section on SPECIAL COMMAND LINE OPTIONS.
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type_of_loader:
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If your boot loader has an assigned id (see table below), enter
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0xTV here, where T is an identifier for the boot loader and V is
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a version number. Otherwise, enter 0xFF here.
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Assigned boot loader ids:
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0 LILO
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1 Loadlin
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2 bootsect-loader
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3 SYSLINUX
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4 EtherBoot
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5 ELILO
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7 GRuB
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8 U-BOOT
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9 Xen
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Please contact <hpa@zytor.com> if you need a bootloader ID
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value assigned.
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loadflags, heap_end_ptr:
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If the protocol version is 2.01 or higher, enter the
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offset limit of the setup heap into heap_end_ptr and set the
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0x80 bit (CAN_USE_HEAP) of loadflags. heap_end_ptr appears to
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be relative to the start of setup (offset 0x0200).
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setup_move_size:
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When using protocol 2.00 or 2.01, if the real mode
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kernel is not loaded at 0x90000, it gets moved there later in
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the loading sequence. Fill in this field if you want
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additional data (such as the kernel command line) moved in
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addition to the real-mode kernel itself.
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ramdisk_image, ramdisk_size:
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If your boot loader has loaded an initial ramdisk (initrd),
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set ramdisk_image to the 32-bit pointer to the ramdisk data
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and the ramdisk_size to the size of the ramdisk data.
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The initrd should typically be located as high in memory as
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possible, as it may otherwise get overwritten by the early
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kernel initialization sequence. However, it must never be
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located above the address specified in the initrd_addr_max
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field. The initrd should be at least 4K page aligned.
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cmd_line_ptr:
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If the protocol version is 2.02 or higher, this is a 32-bit
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pointer to the kernel command line. The kernel command line
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can be located anywhere between the end of setup and 0xA0000.
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Fill in this field even if your boot loader does not support a
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command line, in which case you can point this to an empty
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string (or better yet, to the string "auto".) If this field
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is left at zero, the kernel will assume that your boot loader
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does not support the 2.02+ protocol.
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ramdisk_max:
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The maximum address that may be occupied by the initrd
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contents. For boot protocols 2.02 or earlier, this field is
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not present, and the maximum address is 0x37FFFFFF. (This
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address is defined as the address of the highest safe byte, so
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if your ramdisk is exactly 131072 bytes long and this field is
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0x37FFFFFF, you can start your ramdisk at 0x37FE0000.)
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**** THE KERNEL COMMAND LINE
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The kernel command line has become an important way for the boot
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loader to communicate with the kernel. Some of its options are also
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relevant to the boot loader itself, see "special command line options"
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below.
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The kernel command line is a null-terminated string currently up to
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255 characters long, plus the final null. A string that is too long
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will be automatically truncated by the kernel, a boot loader may allow
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a longer command line to be passed to permit future kernels to extend
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this limit.
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If the boot protocol version is 2.02 or later, the address of the
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kernel command line is given by the header field cmd_line_ptr (see
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above.) This address can be anywhere between the end of the setup
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heap and 0xA0000.
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If the protocol version is *not* 2.02 or higher, the kernel
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command line is entered using the following protocol:
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At offset 0x0020 (word), "cmd_line_magic", enter the magic
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number 0xA33F.
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At offset 0x0022 (word), "cmd_line_offset", enter the offset
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of the kernel command line (relative to the start of the
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real-mode kernel).
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The kernel command line *must* be within the memory region
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covered by setup_move_size, so you may need to adjust this
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field.
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**** SAMPLE BOOT CONFIGURATION
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As a sample configuration, assume the following layout of the real
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mode segment (this is a typical, and recommended layout):
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0x0000-0x7FFF Real mode kernel
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0x8000-0x8FFF Stack and heap
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0x9000-0x90FF Kernel command line
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Such a boot loader should enter the following fields in the header:
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unsigned long base_ptr; /* base address for real-mode segment */
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if ( setup_sects == 0 ) {
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setup_sects = 4;
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}
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if ( protocol >= 0x0200 ) {
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type_of_loader = <type code>;
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if ( loading_initrd ) {
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ramdisk_image = <initrd_address>;
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ramdisk_size = <initrd_size>;
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}
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if ( protocol >= 0x0201 ) {
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heap_end_ptr = 0x9000 - 0x200;
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loadflags |= 0x80; /* CAN_USE_HEAP */
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}
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if ( protocol >= 0x0202 ) {
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cmd_line_ptr = base_ptr + 0x9000;
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} else {
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cmd_line_magic = 0xA33F;
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cmd_line_offset = 0x9000;
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setup_move_size = 0x9100;
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}
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} else {
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/* Very old kernel */
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cmd_line_magic = 0xA33F;
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cmd_line_offset = 0x9000;
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/* A very old kernel MUST have its real-mode code
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loaded at 0x90000 */
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if ( base_ptr != 0x90000 ) {
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/* Copy the real-mode kernel */
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memcpy(0x90000, base_ptr, (setup_sects+1)*512);
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/* Copy the command line */
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memcpy(0x99000, base_ptr+0x9000, 256);
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base_ptr = 0x90000; /* Relocated */
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}
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/* It is recommended to clear memory up to the 32K mark */
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memset(0x90000 + (setup_sects+1)*512, 0,
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(64-(setup_sects+1))*512);
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}
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**** LOADING THE REST OF THE KERNEL
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The 32-bit (non-real-mode) kernel starts at offset (setup_sects+1)*512
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in the kernel file (again, if setup_sects == 0 the real value is 4.)
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It should be loaded at address 0x10000 for Image/zImage kernels and
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0x100000 for bzImage kernels.
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The kernel is a bzImage kernel if the protocol >= 2.00 and the 0x01
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bit (LOAD_HIGH) in the loadflags field is set:
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is_bzImage = (protocol >= 0x0200) && (loadflags & 0x01);
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load_address = is_bzImage ? 0x100000 : 0x10000;
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Note that Image/zImage kernels can be up to 512K in size, and thus use
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the entire 0x10000-0x90000 range of memory. This means it is pretty
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much a requirement for these kernels to load the real-mode part at
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0x90000. bzImage kernels allow much more flexibility.
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**** SPECIAL COMMAND LINE OPTIONS
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If the command line provided by the boot loader is entered by the
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user, the user may expect the following command line options to work.
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They should normally not be deleted from the kernel command line even
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though not all of them are actually meaningful to the kernel. Boot
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loader authors who need additional command line options for the boot
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loader itself should get them registered in
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Documentation/kernel-parameters.txt to make sure they will not
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conflict with actual kernel options now or in the future.
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vga=<mode>
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<mode> here is either an integer (in C notation, either
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decimal, octal, or hexadecimal) or one of the strings
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"normal" (meaning 0xFFFF), "ext" (meaning 0xFFFE) or "ask"
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(meaning 0xFFFD). This value should be entered into the
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vid_mode field, as it is used by the kernel before the command
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line is parsed.
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mem=<size>
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<size> is an integer in C notation optionally followed by K, M
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or G (meaning << 10, << 20 or << 30). This specifies the end
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of memory to the kernel. This affects the possible placement
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of an initrd, since an initrd should be placed near end of
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memory. Note that this is an option to *both* the kernel and
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the bootloader!
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initrd=<file>
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An initrd should be loaded. The meaning of <file> is
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obviously bootloader-dependent, and some boot loaders
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(e.g. LILO) do not have such a command.
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In addition, some boot loaders add the following options to the
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user-specified command line:
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BOOT_IMAGE=<file>
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The boot image which was loaded. Again, the meaning of <file>
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is obviously bootloader-dependent.
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auto
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The kernel was booted without explicit user intervention.
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If these options are added by the boot loader, it is highly
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recommended that they are located *first*, before the user-specified
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or configuration-specified command line. Otherwise, "init=/bin/sh"
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gets confused by the "auto" option.
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**** RUNNING THE KERNEL
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The kernel is started by jumping to the kernel entry point, which is
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located at *segment* offset 0x20 from the start of the real mode
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kernel. This means that if you loaded your real-mode kernel code at
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0x90000, the kernel entry point is 9020:0000.
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At entry, ds = es = ss should point to the start of the real-mode
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kernel code (0x9000 if the code is loaded at 0x90000), sp should be
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set up properly, normally pointing to the top of the heap, and
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interrupts should be disabled. Furthermore, to guard against bugs in
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the kernel, it is recommended that the boot loader sets fs = gs = ds =
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es = ss.
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In our example from above, we would do:
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/* Note: in the case of the "old" kernel protocol, base_ptr must
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be == 0x90000 at this point; see the previous sample code */
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seg = base_ptr >> 4;
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cli(); /* Enter with interrupts disabled! */
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/* Set up the real-mode kernel stack */
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_SS = seg;
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_SP = 0x9000; /* Load SP immediately after loading SS! */
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_DS = _ES = _FS = _GS = seg;
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jmp_far(seg+0x20, 0); /* Run the kernel */
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If your boot sector accesses a floppy drive, it is recommended to
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switch off the floppy motor before running the kernel, since the
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kernel boot leaves interrupts off and thus the motor will not be
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switched off, especially if the loaded kernel has the floppy driver as
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a demand-loaded module!
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**** ADVANCED BOOT TIME HOOKS
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If the boot loader runs in a particularly hostile environment (such as
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LOADLIN, which runs under DOS) it may be impossible to follow the
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standard memory location requirements. Such a boot loader may use the
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following hooks that, if set, are invoked by the kernel at the
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appropriate time. The use of these hooks should probably be
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considered an absolutely last resort!
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IMPORTANT: All the hooks are required to preserve %esp, %ebp, %esi and
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%edi across invocation.
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realmode_swtch:
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A 16-bit real mode far subroutine invoked immediately before
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entering protected mode. The default routine disables NMI, so
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your routine should probably do so, too.
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code32_start:
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A 32-bit flat-mode routine *jumped* to immediately after the
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transition to protected mode, but before the kernel is
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uncompressed. No segments, except CS, are set up; you should
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set them up to KERNEL_DS (0x18) yourself.
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After completing your hook, you should jump to the address
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that was in this field before your boot loader overwrote it.
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