mirror of
https://gitlab.com/bztsrc/bootboot.git
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467 lines
22 KiB
Markdown
467 lines
22 KiB
Markdown
BOOTBOOT Reference Implementations
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==================================
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I provide pre-compiled images ready for use.
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1. *x86_64-efi* the preferred way of booting on x86_64 architecture.
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Standard GNU toolchain and a few files from gnuefi (included).
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[bootboot.efi](https://gitlab.com/bztsrc/bootboot/raw/master/dist/bootboot.efi) (95k), [bootboot.rom](https://gitlab.com/bztsrc/bootboot/raw/master/dist/bootboot.rom) (96k)
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2. *x86_64-bios* BIOS, Multiboot (GRUB), El Torito (CDROM), Expansion ROM and Linux boot compatible, OBSOLETE loader.
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If you want to recompile this, you'll need fasm (not included).
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[boot.bin](https://gitlab.com/bztsrc/bootboot/raw/master/dist/boot.bin) (512 bytes, works as MBR, VBR and CDROM boot record too), [bootboot.bin](https://gitlab.com/bztsrc/bootboot/raw/master/dist/bootboot.bin) (11k, loaded by boot.bin, also BBS Expansion ROM and Multiboot compliant)
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3. *aarch64-rpi* ARMv8 boot loader for Raspberry Pi 3, 4
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[bootboot.img](https://gitlab.com/bztsrc/bootboot/raw/master/dist/bootboot.img) (34k)
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4. *mykernel* an example BOOTBOOT [compatible kernel](https://gitlab.com/bztsrc/bootboot/tree/master/mykernel) in C which draws lines and boxes
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5. *mykernel-rust* an example BOOTBOOT [compatible kernel](https://gitlab.com/bztsrc/bootboot/tree/master/mykernel-rust) in Rust
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6. *mkbootimg* an all-in-one multiplatform [bootable disk image creator](https://gitlab.com/bztsrc/bootboot/tree/master/mkbootimg) (Windows, MacOSX, Linux).
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Please note that not all the reference implementations do support the full protocol at level 2, x86_64-bios only handles
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static mappings which makes it a level 1 loader.
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For a quick test, you can find example bootable disk [images](https://gitlab.com/bztsrc/bootboot/tree/master/images) too.
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BOOTBOOT can also be compiled as a [coreboot](https://coreboot.org) payload, see *x86_64-cb* and *aarch64-cb*, but since
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they are tied strongly with libpayload, I do not provide binaries for those.
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BOOTBOOT Protocol
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=================
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Rationale
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---------
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The protocol describes how to boot an ELF64 or PE32+ executable inside an initial ram disk image
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into clean 64 bit mode, without using any configuration or even knowing the file system of initrd.
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On [BIOS](https://gitlab.com/bztsrc/bootboot/tree/master/x86_64-bios) based systems, the same image can be loaded via
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Multiboot, chainload from MBR, VBR (GPT hybrid booting) and CDROM boot record, or run as a BIOS Expansion ROM
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(so not only the ramdisk can be in ROM, but the loader as well).
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On [UEFI machines](https://gitlab.com/bztsrc/bootboot/tree/master/x86_64-efi), it is a standard EFI OS Loader application.
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On [Raspberry Pi 3+](https://gitlab.com/bztsrc/bootboot/tree/master/aarch64-rpi) board the bootboot.img
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is loaded from the boot partition on SD card as kernel8.img by start.elf.
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The difference to other booting protocols is flexibility and portability;
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only clean 64 bit support; and that BOOTBOOT expects the kernel to fit inside the
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initial ramdisk. This is ideal for hobby OSes and micro-kernels. The advantage it gaves is that your kernel
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can be splitted up into several files and yet they will be loaded together
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as if it were a monolitic kernel. And you can use your own file system for the initrd.
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Note: BOOTBOOT is not a boot manager, it's a boot loader protocol. If you want an interactive boot menu, you should
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integrate that *before* a BOOTBOOT compatible loader is called. Like GRUB chainloading boot.bin (or loading bootboot.bin as a
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multiboot "kernel" and initrd as a module) or adding bootboot.efi to UEFI Boot Manager's menu for example.
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Support the Development by Donation
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-----------------------------------
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If you like it or find it useful, your donation of any amount will be very much appreciated:<br>
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<a href="bitcoin:3G9vcV91S19fHMoBcmSksUpaxGPR5MUGCk"><img src="https://gitlab.com/bztsrc/bootboot/raw/master/donate.png"><br>BTC 3G9vcV91S19fHMoBcmSksUpaxGPR5MUGCk</a>
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Licence
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-------
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The BOOTBOOT Protocol as well as the reference implementations are free
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software and licensed under the terms of MIT licence.
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```
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Copyright (C) 2017 bzt (bztsrc@gitlab)
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Permission is hereby granted, free of charge, to any person
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obtaining a copy of this software and associated documentation
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files (the "Software"), to deal in the Software without
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restriction, including without limitation the rights to use, copy,
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modify, merge, publish, distribute, sublicense, and/or sell copies
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of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be
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included in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
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HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
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WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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DEALINGS IN THE SOFTWARE.
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```
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Authors
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-------
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efirom: Michael Brown
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zlib: Mark Adler
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tinflate: Joergen Ibsen
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raspbootcom: (GPL) Goswin von Brederlow
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mykernel-rust: Vinay Chandra
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BOOTBOOT, FS/Z: bzt
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Glossary
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--------
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* _boot partition_: the first bootable partition of the first bootable disk,
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a rather small one. Most likely an EFI System Partition with FAT, but can be
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any other partition as well if the partition is bootable (bit 2 set in flags).
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* _environment file_: a maximum one page frame long, utf-8 [file](https://gitlab.com/bztsrc/bootboot/blob/master/README.md#environment-file) on boot partition
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at `BOOTBOOT\CONFIG` (or when your initrd is on the entire partition, `/sys/config`). It
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has "key=value" pairs (separated by newlines). The protocol
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only specifies two of the keys: "screen" for screen size,
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and "kernel" for the name of the executable inside the initrd.
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* _initrd_: initial [ramdisk image](https://gitlab.com/bztsrc/bootboot/blob/master/README.md#installation)
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(probably in ROM or flash, or on a GPT boot partition at BOOTBOOT\INITRD, or it can occupy the whole partition, or can be loaded
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over the network or as a GRUB module). It's format and whereabouts are not specified (the good part :-) ) and can be optionally gzip compressed.
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* _loader_: a native executable on the boot partition or in ROM. For multi-bootable disks
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more loader implementations can co-exists.
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* _file system driver_: a separated function that parses initrd for the kernel file.
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Without one the first executable found will be loaded.
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* _kernel file_: an ELF64 / PE32+ [executable inside initrd](https://gitlab.com/bztsrc/bootboot/tree/master/mykernel),
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optionally with the following symbols: `mmio`, `fb`, `environment`, `bootboot` (see machine state and linker script).
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* _BOOTBOOT structure_: an informational structure defined in [bootboot.h](https://gitlab.com/bztsrc/bootboot/blob/master/dist/bootboot.h).
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Boot process
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------------
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1. the firmware locates the loader, loads it and passes control to it.
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2. the loader initializes hardware (64 bit multicore mode, screen resolution, memory map etc.)
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3. then loads environment file and initrd file (probably from the boot partition or from ROM).
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4. iterates on file system drivers, and loads kernel file from initrd.
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5. if file system is not recognized, scans for the first executable in the initrd.
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6. parses executable header and symbols to get link addresses (only level 2 compatible loaders).
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7. maps linear framebuffer, environment and [bootboot structure](https://gitlab.com/bztsrc/bootboot/blob/master/dist/bootboot.h) accordingly.
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8. sets up stack, registers and jumps to kernel entry point. See [example kernel](https://gitlab.com/bztsrc/bootboot/tree/master/mykernel).
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Machine state
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-------------
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When the kernel gains control, the memory mapping looks like this:
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```
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-128M "mmio" area (0xFFFFFFFFF8000000)
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-64M "fb" framebuffer (0xFFFFFFFFFC000000)
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-2M "bootboot" structure (0xFFFFFFFFFFE00000)
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-2M+1page "environment" string (0xFFFFFFFFFFE01000)
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-2M+2page.. code segment v (0xFFFFFFFFFFE02000)
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..0 stack ^ (0x0000000000000000)
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0-16G RAM identity mapped (0x0000000400000000)
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```
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All information is passed at linker defined addresses. No API required at all, therefore the BOOTBOOT Protocol is
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totally architecture and ABI agnostic. Level 1 expects these symbols at pre-defined addresses you see above, level 2
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loaders parse the symbol table in executable to get the actual addresses.
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The RAM (up to 16G) is identity mapped in the positive address range. Serial console is configured for 115200 baud,
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8 data bits, no partity and 1 stop bit. Interrups are turned off and code is running in supervisor mode (ring 0 / EL1).
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The screen is properly set up with a 32 bit packed pixel linear framebuffer, mapped at the negative address defined by
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the `fb` symbol. Level 1 loaders limit the framebuffer size somewhere around 4096 x 4096 pixels (depends on scanline size
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and aspect ratio too). That's more than enough for [Ultra HD 4K](https://en.wikipedia.org/wiki/4K_resolution) (3840 x 2160).
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Level 2 loaders can place the fb anywhere in memory from -1G to -2M, therefore they do not have such a limitation.
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The main information [bootboot structure](https://gitlab.com/bztsrc/bootboot/blob/master/dist/bootboot.h) is mapped
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at `bootboot` symbol. It consist of a fixed 128 bytes long header followed by various number of fixed
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records. Your initrd (with the additional kernel modules and servers) is enitrely in the memory, and you can locate it
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using this struct's *initrd_ptr* and *initrd_size* members. The physical address of the framebuffer can be found in
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the *fb_ptr* field. The *boot time* and a platform independent *memory map* are also provided.
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The configuration string (or command line if you like) is mapped at `environment` symbol.
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Kernel's code segment is mapped at ELF header's `p_vaddr` or PE header's `code_base` (level 2 only). Level 1 loaders
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load kernels at -2M, therefore limiting the kernel's size in 2M, including configuration, data, bss and stack. Level 2
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loaders has a limit of 16M for code, data and bss segment. That must be more than enough for all micro-kernels. Bss
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segment is after the text segment, growing upwards, and it's zerod-out by the loader.
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Co-processor enabled, and if Symmetric Multi Processing supported, all cores are running the same kernel code at once.
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The stack is at the top of the memory, starting at zero and growing downwards. Each core has it's own 1k stack on SMP systems
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(core 0's stack starts at 0, core 1's at -1024 etc.).
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Environment file
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----------------
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Configuration is passed to your kernel as newline separated, zero terminated UTF-8 string with "key=value" pairs.
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```
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// BOOTBOOT Options
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// --- Loader specific ---
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// requested screen dimension. If not given, autodetected
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screen=800x600
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// elf or pe binary to load inside initrd
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kernel=sys/core
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// --- Kernel specific, you're choosing ---
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anythingyouwant=somevalue
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otherstuff=enabled
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somestuff=100
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someaddress=0xA0000
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```
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That cannot be larger than a page size (4096 bytes). Temporary variables will be appended at the end (from
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UEFI command line). C style single line and multi line comments can be used. BOOTBOOT protocol only uses `screen` and
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`kernel` keys, all the others and their values are up to your kernel (or drivers) to parse. Be creative :-)
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To modify the environment when having booting issues, one will need to insert the disk into another machine (or boot a simple OS like DOS) and edit
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BOOTBOOT\CONFIG on the boot partition. With UEFI, you can use the `edit` command provided by the EFI Shell or append
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"key=value" pairs on the command line (value specified on command line takes precedence over the one in the file).
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File system drivers
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-------------------
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The file system of the boot partition and how initrd is loaded from it is out of the scope of this specification:
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the BOOTBOOT Protocol only states that a compatible loader must be able to load initrd and the environment file,
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but does not describe how or from where. They can be loaded from nvram, ROM or over
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network for example, it does not matter.
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On the other hand BOOTBOOT does specify one API function to locate a file (the kernel)
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inside the initrd image, but the ABI is also implementation (and architecture) specific.
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This function receives a pointer to initrd in memory as well as the kernel's filename, and
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returns a pointer to the first byte of the kernel and it's size. On error (if file system is
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not recognized or the kernel file is not found) returns {NULL,0}. Plain simple.
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```c
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typedef struct {
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uint8_t *ptr;
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uint64_t size;
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} file_t;
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file_t myfs_initrd(uint8_t *initrd, char *filename);
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```
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The protocol expects that a BOOTBOOT compliant loader iterates on a list of drivers until one
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returns a valid result. If all file system drivers returned {NULL,0}, the loader will brute-force
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scan for the first ELF64 / PE32+ image in the initrd. This feature is quite comfortable when you
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want to use your own file system but you don't have written an fs driver for it yet, or when your
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"initrd" is a single, statically linked executable, like the Minix kernel. You just copy
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your initrd on the boot partition, and you're ready to rock and roll!
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The BOOTBOOT Protocol expects the file system drivers ([here](https://gitlab.com/bztsrc/bootboot/blob/master/x86_64-efi/fs.h),
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[here](https://gitlab.com/bztsrc/bootboot/blob/master/x86_64-bios/fs.inc) and [here](https://gitlab.com/bztsrc/bootboot/blob/master/aarch64-rpi/fs.h))
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to be separated from the rest of the loader's source. This is so because it was designed to help the needs of hobby
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OS developers, specially for those who want to write their own file systems.
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The reference implementations support [cpio](https://en.wikipedia.org/wiki/Cpio) (all hpodc, newc and crc variants),
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[ustar](https://en.wikipedia.org/wiki/Tar_(computing)), osdev.org's [SFS](http://wiki.osdev.org/SFS),
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[James Molloy's initrd](http://www.jamesmolloy.co.uk/tutorial_html/8.-The%20VFS%20and%20the%20initrd.html)
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format and OS/Z's native [FS/Z](https://gitlab.com/bztsrc/osz/blob/master/include/osZ/fsZ.h) (with encryption support too).
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Gzip compressed initrds also supported to save disk space and fasten up load time (not recommended on RPi3).
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Example kernel
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--------------
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An [example kernel](https://gitlab.com/bztsrc/bootboot/blob/master/mykernel/kernel.c) is included with BOOTBOOT Protocol
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to demostrate how to access the environment:
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```c
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#include <bootboot.h>
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/* imported virtual addresses, see linker script below */
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extern BOOTBOOT bootboot; // see bootboot.h
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extern unsigned char environment[4096]; // configuration, UTF-8 text key=value pairs
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extern uint8_t fb; // linear framebuffer mapped
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void _start()
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{
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/*** NOTE: this code runs on all cores in parallel ***/
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int x, y, s=bootboot.fb_scanline, w=bootboot.fb_width, h=bootboot.fb_height;
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// cross-hair to see screen dimension detected correctly
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for(y=0;y<h;y++) { *((uint32_t*)(&fb + s*y + (w*2)))=0x00FFFFFF; }
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for(x=0;x<w;x++) { *((uint32_t*)(&fb + s*(h/2)+x*4))=0x00FFFFFF; }
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// red, green, blue boxes in order
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for(y=0;y<20;y++) { for(x=0;x<20;x++) { *((uint32_t*)(&fb + s*(y+20) + (x+20)*4))=0x00FF0000; } }
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for(y=0;y<20;y++) { for(x=0;x<20;x++) { *((uint32_t*)(&fb + s*(y+20) + (x+50)*4))=0x0000FF00; } }
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for(y=0;y<20;y++) { for(x=0;x<20;x++) { *((uint32_t*)(&fb + s*(y+20) + (x+80)*4))=0x000000FF; } }
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// say hello
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puts("Hello from a simple BOOTBOOT kernel");
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// hang for now
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while(1);
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}
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```
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For compilation, see example bootboot kernel's [Makefile](https://gitlab.com/bztsrc/bootboot/blob/master/mykernel/Makefile) and
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[link.ld](https://gitlab.com/bztsrc/bootboot/blob/master/mykernel/link.ld).
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Because on an SMP system all cores executing the same code, you probably want to start your kernel with something like:
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```c
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if (currentcoreid == bootboot.bspid) {
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/* things to do on the bootstrap processor */
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} else {
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/* things to do on the application processor(s) */
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}
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```
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On x86_64, 'currentcoreid' is the Local Apic Id (cpuid[eax=1].ebx >> 24), on AArch64 that's (mpidr_el1 & 3).
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Installation
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------------
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In the [images](https://gitlab.com/bztsrc/bootboot/tree/master/images) directory you can find test disk images and image creator
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as well.
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1. make an initrd with your kernel in it. Example:
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```shell
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mkdir -r tmp/sys
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cp mykernel.x86_64.elf tmp/sys/core
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# copy more files to tmp/ directory
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# create your file system image or an archive. For example use one of these:
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cd tmp
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find . | cpio -H newc -o | gzip > ../INITRD
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find . | cpio -H crc -o | gzip > ../INITRD
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find . | cpio -H hpodc -o | gzip > ../INITRD
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tar -czf ../INITRD *
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mkfs ../INITRD .
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```
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2. Create FS0:\BOOTBOOT directory on the boot partition, and copy the image you've created
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into it. If you want, create a text file named CONFIG there too, and put your
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environment variables there. If you use a different name than "sys/core" for your
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kernel, specify "kernel=" in it.
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Alternatively you can copy an uncompressed INITRD into the whole partition using your fs only, leaving FAT file system entirely out.
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You can also create an Option ROM out of INITRD (on BIOS there's not much space ~64-96k, but on EFI it can be 16M).
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3. copy the BOOTBOOT loader on the boot partition.
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3.1. *UEFI disk*: copy __bootboot.efi__ to **_FS0:\EFI\BOOT\BOOTX64.EFI_**.
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3.2. *BIOS disk*: copy __bootboot.bin__ to **_FS0:\BOOTBOOT\LOADER_**.
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3.3. *Raspberry Pi 3+*: copy __bootboot.img__ to **_FS0:\KERNEL8.IMG_**.
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**IMPORTANT**: see the relevant port's README.md for more details.
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Troubleshooting
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---------------
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```
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BOOTBOOT-PANIC: LBA support not found
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```
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Really old hardware. Your BIOS does not support LBA. This message is generated by 1st stage loader (boot.bin).
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```
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BOOTBOOT-PANIC: FS0:\BOOTBOOT\LOADER not found
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```
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The loader (bootboot.bin) is not on the disk or it's starting LBA address is not recorded in the boot sector at dword [0x1B0]
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(see [mkboot](https://gitlab.com/bztsrc/bootboot/blob/master/x86_64-bios/mkboot.c)). As the boot sector supports RAID mirror,
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it will try to load the loader from other drives as well. This message is generated by 1st stage loader (boot.bin).
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```
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BOOTBOOT-PANIC: Hardware not supported
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```
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Really old hardware. On x86_64, your CPU is older than family 6.0 or PAE, MSR, LME features not supported.
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On AArch64 it means the MMU does not support 4k granule size or at least 36 bit address size.
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```
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BOOTBOOT-PANIC: Unable to initialize SDHC card
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```
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The loader was unable to initialize EMMC for SDHC card access, probably hardware error or old card.
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```
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BOOTBOOT-PANIC: No GPT found
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```
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|
The loader was unable to load the GUID Partitioning Table.
|
|
|
|
```
|
|
BOOTBOOT-PANIC: No boot partition
|
|
```
|
|
|
|
There's no EFI System Partition nor any other bootable partition in the GPT. Or the FAT file system is found but corrupt
|
|
(contains inconsistent BPB data), or doesn't have a BOOTBOOT directory (with 8+3 MSDOS entry, not LFN).
|
|
|
|
```
|
|
BOOTBOOT-PANIC: Not 2048 sector aligned
|
|
```
|
|
|
|
This error is only shown by bootboot.bin (and not by bootboot.efi or bootboot.img) and only when
|
|
booted from CDROM in El Torito "no emulation" mode, and the boot partition file system's
|
|
root directory is not 2048 bytes aligned or the cluster size is not multiple of 2048
|
|
bytes. For FAT16 it depends on FAT table size and therefore on file system size. If you
|
|
see this message, increase the number of hidden sectors in BPB by 2. FAT32 file systems are
|
|
not affected.
|
|
|
|
```
|
|
BOOTBOOT-PANIC: Initrd not found
|
|
```
|
|
|
|
The loader could not find the initial ramdisk image on the boot partition.
|
|
|
|
```
|
|
BOOTBOOT-PANIC: Kernel not found in initrd
|
|
```
|
|
|
|
Kernel is not included in the initrd, or initrd's fileformat is not recognized by any of the file system
|
|
drivers and scanning haven't found a valid executable header in it.
|
|
|
|
```
|
|
BOOTBOOT-PANIC: Kernel is not a valid executable
|
|
```
|
|
|
|
The file that was specified as kernel could be loaded by fs drivers, but it's not an ELF64 or PE32+,
|
|
does not match the architecture, or does not have any program header with a loadable segment (p_vaddr or core_base)
|
|
in the negative range (see linker script). This error is also shown by level 2 loaders if the address of `mmio`, `fb`,
|
|
`bootboot` and `environment` symbols are not in the negative range (-1G to 0) or if they are not page aligned.
|
|
On x86_64 the fb symbol, and for AArch64 the mmio symbol must be 2M aligned too. Use [mkbootimg check](https://gitlab.com/bztsrc/bootboot/tree/master/mkbootimg)
|
|
to find out what the problem is.
|
|
|
|
```
|
|
BOOTBOOT-PANIC: Kernel is too big
|
|
```
|
|
|
|
The kernel is bigger than 16 megabytes. For level 1 loaders the limit is somewhere below 2M.
|
|
|
|
```
|
|
BOOTBOOT-PANIC: GOP failed, no framebuffer
|
|
BOOTBOOT-PANIC: VESA VBE error, no framebuffer
|
|
BOOTBOOT-PANIC: VideoCore error, no framebuffer
|
|
```
|
|
|
|
The first part of the message varies on different platforms. It means that the loader was unable to set up linear
|
|
framebuffer with packed 32 bit pixels in the requested resolution. Possible solution is to modify screen to
|
|
`screen=800x600` or `screen=1024x768` in environment.
|
|
|
|
```
|
|
BOOTBOOT-PANIC: Unsupported cipher
|
|
```
|
|
|
|
This message is shown if the initrd is encrypted with a cipher that the loader does not support. Solution:
|
|
regenerate and encrypt the initrd image with SHA-XOR-CBC cipher, known to all the three implementations.
|
|
(Note: encryption is only supported for FS/Z initrd images.)
|
|
|
|
That's all, hope it will be useful!
|
|
|
|
Contributors
|
|
------------
|
|
|
|
I'd like to say special thanks to [Valentin Anger](https://gitlab.com/SyrupThinker) for throughfully testing this
|
|
code on many different real hardware. Also to [Vinay Chandra](https://gitlab.com/vinaychandra) for pushing me to add
|
|
level 2 protocol to the reference implementations and for testing and providing a Rust kernel example for the project.
|
|
Further thanks to [Stephen Sherratt](https://gitlab.com/stevebob) for being presistent at fixing issues.
|