mirror of
https://github.com/limine-bootloader/limine
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937 lines
27 KiB
Markdown
937 lines
27 KiB
Markdown
# The Limine Boot Protocol
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The Limine boot protocol is a modern, minimal, fast, and extensible boot
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protocol, with a focus on backwards and forwards compatibility,
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created from the experience gained by working on the
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[stivale boot protocols](https://github.com/stivale).
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This file serves as the official centralised collection of features that
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the Limine boot protocol is composed of. Other bootloaders may support extra
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unofficial features, but it is strongly recommended to avoid fragmentation
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and submit new features by opening a pull request to this repository.
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The [limine.h](/limine.h) file provides an implementation of all the
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structures and constants described in this document, for the C and C++
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languages.
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## General Notes
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All pointers are 64-bit wide. All pointers point to the object with the
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higher half direct map offset already added to them, unless otherwise noted.
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The calling convention matches the SysV C ABI for the specific architecture.
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## Features
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The protocol is centered around the concept of request/response - collectively
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named "features" - where the kernel requests some action or information from
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the bootloader, and the bootloader responds accordingly, if it is capable of
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doing so.
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In C terms, a feature is composed of 2 structure: the request, and the response.
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A request has 3 mandatory members at the beginning of the structure:
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```c
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struct limine_example_request {
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uint64_t id[4];
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uint64_t revision;
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struct limine_example_response *response;
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... optional members follow ...
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};
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```
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* `id` - The ID of the request. This is an 8-byte aligned magic number that the
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bootloader will scan for inside the executable file to find requests. Requests
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may be located anywhere inside the executable as long as they are 8-byte
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aligned. There may only be 1 of the same request. The bootloader will refuse
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to boot an executable with multiple of the same request IDs. Alternatively, it is possible to provide a list of requests explicitly via an executable file section. See "Limine Requests Section".
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* `revision` - The revision of the request that the kernel provides. This starts at 0 and is
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bumped whenever new members or functionality are added to the request structure.
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Bootloaders process requests in a backwards compatible manner, *always*. This
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means that if the bootloader does not support the revision of the request,
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it will process the request as if were the highest revision that the bootloader
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supports.
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* `response` - This field is filled in by the bootloader at load time, with a
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pointer to the response structure, if the request was successfully processed.
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If the request is unsupported or was not successfully processed, this field
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is *left untouched*, meaning that if it was set to `NULL`, it will stay that
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way.
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A response has only 1 mandatory member at the beginning of the structure:
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```c
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struct limine_example_response {
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uint64_t revision;
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... optional members follow ...
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};
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```
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* `revision` - Like for requests, bootloaders will instead mark responses with a
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revision number. This revision is not coupled between requests and responses,
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as they are bumped individually when new members are added or functionality is
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changed. Bootloaders will set the revision to the one they provide, and this is
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*always backwards compatible*, meaning higher revisions support all that lower
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revisions do.
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This is all there is to features. For a list of official Limine features, read
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the "Feature List" section below.
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## Limine Requests Section
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If the executable kernel file contains a `.limine_reqs` section, the bootloader
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will, instead of scanning the executable for requests, fetch the requests
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from a NULL-terminated array of pointers to the provided requests, contained
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inside said section.
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## Entry memory layout
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The protocol mandates kernels to load themselves at or above
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`0xffffffff80000000`. Lower half kernels are *not supported*.
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At handoff, the kernel will be properly loaded and mapped with appropriate
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MMU permissions at the requested virtual memory address (provided it is at
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or above `0xffffffff80000000`).
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No specific physical memory placement is guaranteed. In order to determine
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where the kernel is loaded in physical memory, see the Kernel Address feature
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below.
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Alongside the loaded kernel, the bootloader will set up memory mappings as such:
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```
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Base Physical Address - Size -> Virtual address
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0x0000000000001000 - 4 GiB plus any additional memory map entry -> 0x0000000000001000
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0x0000000000000000 - 4 GiB plus any additional memory map entry -> HHDM start
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```
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Where HHDM start is returned by the Higher Half Direct Map feature (see below).
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These mappings are supervisor, read, write, execute (-rwx).
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The bootloader page tables are in bootloader-reclaimable memory (see Memory Map
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feature below), and their specific layout is undefined as long as they provide
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the above memory mappings.
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If the kernel is a position independent executable, the bootloader is free to
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relocate it as it sees fit, potentially performing KASLR (as specified by the
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config).
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## Entry machine state
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### x86_64
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`rip` will be the entry point as defined as part of the executable file format,
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unless the an Entry Point feature is requested (see below), in which case,
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the value of `rip` is going to be taken from there.
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At entry all segment registers are loaded as 64 bit code/data segments, limits
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and bases are ignored since this is 64-bit mode.
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The GDT register is loaded to point to a GDT, in bootloader-reserved memory,
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with at least the following entries, starting at offset 0:
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- Null descriptor
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- 16-bit code descriptor. Base = `0`, limit = `0xffff`. Readable.
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- 16-bit data descriptor. Base = `0`, limit = `0xffff`. Writable.
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- 32-bit code descriptor. Base = `0`, limit = `0xffffffff`. Readable.
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- 32-bit data descriptor. Base = `0`, limit = `0xffffffff`. Writable.
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- 64-bit code descriptor. Base and limit irrelevant. Readable.
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- 64-bit data descriptor. Base and limit irrelevant. Writable.
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The IDT is in an undefined state. Kernel must load its own.
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IF flag, VM flag, and direction flag are cleared on entry. Other flags
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undefined.
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PG is enabled (`cr0`), PE is enabled (`cr0`), PAE is enabled (`cr4`),
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WP is enabled (`cr0`), LME is enabled (`EFER`), NX is enabled (`EFER`).
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If 5-level paging is requested and available, then 5-level paging is enabled
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(LA57 bit in `cr4`).
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The A20 gate is opened.
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Legacy PIC and IO APIC IRQs are all masked.
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If booted by EFI/UEFI, boot services are exited.
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`rsp` is set to point to a stack, in bootloader-reserved memory, which is
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at least 64KiB (65536 bytes) in size, or the size specified in the Stack
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Size Request (see below). An invalid return address of 0 is pushed
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to the stack before jumping to the kernel.
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All other general purpose registers are set to 0.
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## Feature List
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Request IDs are composed of 4 64-bit unsigned integers, but the first 2 are
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common to every request:
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```c
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#define LIMINE_COMMON_MAGIC 0xc7b1dd30df4c8b88, 0x0a82e883a194f07b
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```
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### Bootloader Info Feature
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ID:
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```c
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#define LIMINE_BOOTLOADER_INFO_REQUEST { LIMINE_COMMON_MAGIC, 0xf55038d8e2a1202f, 0x279426fcf5f59740 }
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```
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Request:
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```c
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struct limine_bootloader_info_request {
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uint64_t id[4];
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uint64_t revision;
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struct limine_bootloader_info_response *response;
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};
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```
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Response:
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```c
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struct limine_bootloader_info_response {
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uint64_t revision;
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char *name;
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char *version;
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};
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```
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`name` and `version` are 0-terminated ASCII strings containing the name and
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version of the loading bootloader.
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### Stack Size Feature
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ID:
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```c
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#define LIMINE_STACK_SIZE_REQUEST { LIMINE_COMMON_MAGIC, 0x224ef0460a8e8926, 0xe1cb0fc25f46ea3d }
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```
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Request:
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```c
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struct limine_stack_size_request {
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uint64_t id[4];
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uint64_t revision;
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struct limine_stack_size_response *response;
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uint64_t stack_size;
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};
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```
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* `stack_size` - The requested stack size (also used for SMP processors).
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Response:
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```c
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struct limine_stack_size_response {
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uint64_t revision;
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};
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```
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### HHDM (Higher Half Direct Map) Feature
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ID:
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```c
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#define LIMINE_HHDM_REQUEST { LIMINE_COMMON_MAGIC, 0x48dcf1cb8ad2b852, 0x63984e959a98244b }
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```
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Request:
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```c
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struct limine_hhdm_request {
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uint64_t id[4];
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uint64_t revision;
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struct limine_hhdm_response *response;
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};
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```
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Response:
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```c
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struct limine_hhdm_response {
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uint64_t revision;
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uint64_t offset;
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};
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```
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* `offset` - the virtual address offset of the beginning of the higher half
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direct map.
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### Terminal Feature
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ID:
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```c
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#define LIMINE_TERMINAL_REQUEST { LIMINE_COMMON_MAGIC, 0xc8ac59310c2b0844, 0xa68d0c7265d38878 }
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```
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Request:
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```c
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typedef void (*limine_terminal_callback)(struct limine_terminal *, uint64_t, uint64_t, uint64_t, uint64_t);
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struct limine_terminal_request {
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uint64_t id[4];
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uint64_t revision;
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struct limine_terminal_response *response;
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limine_terminal_callback callback;
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};
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```
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* `callback` - Pointer to the callback function.
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Response:
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```c
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typedef void (*limine_terminal_write)(struct limine_terminal *terminal, const char *string, uint64_t length);
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struct limine_terminal_response {
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uint64_t revision;
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uint64_t terminal_count;
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struct limine_terminal **terminals;
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limine_terminal_write write;
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};
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```
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* `terminal_count` - How many terminals are present.
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* `terminals` - Pointer to an array of `terminal_count` pointers to
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`struct limine_terminal` structures.
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* `write` - Physical pointer to the terminal write() function.
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The function is not thread-safe, nor reentrant, per-terminal.
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This means multiple terminals may be called simultaneously, and multiple
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callbacks may be handled simultaneously.
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The `terminal` parameter points to the `struct limine_terminal` structure to
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use to output the string; the `string` parameter points to a
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string to print; the `length` paremeter contains the length, in bytes, of the
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string to print.
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```c
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struct limine_terminal {
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uint64_t columns;
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uint64_t rows;
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struct limine_framebuffer *framebuffer;
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};
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```
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* `columns` and `rows` - Columns and rows provided by the terminal.
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* `framebuffer` - The framebuffer associated with this terminal.
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Note: Omitting this request will cause the bootloader to not initialise
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the terminal service.
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#### Terminal callback
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The callback is a function that is part of the kernel, which is called by the
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terminal during a `write()` call whenever an event or escape sequence cannot
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be handled by the bootloader's terminal alone, and the kernel may want to be
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notified in order to handle it itself.
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Returning from the callback will resume the `write()` call which will return
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to its caller normally.
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Not returning from a callback may leave the terminal in an undefined state
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and cause issues.
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The callback function has the following prototype:
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```c
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void callback(struct limine_terminal *terminal, uint64_t type, uint64_t, uint64_t, uint64_t);
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```
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The `terminal` argument is a pointer to the Limine terminal structure which
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represents the terminal that caused the callback.
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The purpose of the last 3 arguments changes depending on the `type` argument.
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The callback types are as follows:
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* `LIMINE_TERMINAL_CB_DEC` - (type value: `10`)
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This callback is triggered whenever a DEC Private Mode (DECSET/DECRST)
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sequence is encountered that the terminal cannot handle alone. The arguments
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to this callback are: `terminal`, `type`, `values_count`, `values`, `final`.
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`values_count` is a count of how many values are in the array pointed to by
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`values`. `values` is a pointer to an array of `uint32_t` values, which are
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the values passed to the DEC private escape.
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`final` is the final character in the DEC private escape sequence (typically
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`l` or `h`).
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* `LIMINE_TERMINAL_CB_BELL` - (type value: `20`)
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This callback is triggered whenever a bell event is determined to be
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necessary (such as when a bell character `\a` is encountered). The arguments
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to this callback are: `terminal`, `type`, `unused1`, `unused2`, `unused3`.
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* `LIMINE_TERMINAL_CB_PRIVATE_ID` - (type value: `30`)
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This callback is triggered whenever the kernel has to respond to a DEC
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private identification request. The arguments to this callback are:
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`terminal`, `type`, `unused1`, `unused2`, `unused3`.
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* `LIMINE_TERMINAL_CB_STATUS_REPORT` - (type value `40`)
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This callback is triggered whenever the kernel has to respond to a ECMA-48
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status report request. The arguments to this callback are: `terminal`,
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`type`, `unused1`, `unused2`, `unused3`.
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* `LIMINE_TERMINAL_CB_POS_REPORT` - (type value `50`)
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This callback is triggered whenever the kernel has to respond to a ECMA-48
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cursor position report request. The arguments to this callback are:
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`terminal`, `type`, `x`, `y`, `unused3`. Where `x` and `y` represent the
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cursor position at the time the callback is triggered.
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* `LIMINE_TERMINAL_CB_KBD_LEDS` - (type value `60`)
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This callback is triggered whenever the kernel has to respond to a keyboard
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LED state change request. The arguments to this callback are: `terminal`,
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`type`, `led_state`, `unused2`, `unused3`. `led_state` can have one of the
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following values: `0, 1, 2, or 3`. These values mean: clear all LEDs, set
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scroll lock, set num lock, and set caps lock LED, respectively.
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* `LIMINE_TERMINAL_CB_MODE` - (type value: `70`)
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This callback is triggered whenever an ECMA-48 Mode Switch sequence
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is encountered that the terminal cannot handle alone. The arguments to this
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callback are: `terminal`, `type`, `values_count`, `values`, `final`.
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`values_count` is a count of how many values are in the array pointed to by
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`values`. `values` is a pointer to an array of `uint32_t` values, which are
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the values passed to the mode switch escape.
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`final` is the final character in the mode switch escape sequence (typically
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`l` or `h`).
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* `LIMINE_TERMINAL_CB_LINUX` - (type value `80`)
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This callback is triggered whenever a private Linux escape sequence
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is encountered that the terminal cannot handle alone. The arguments to this
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callback are: `terminal`, `type`, `values_count`, `values`, `unused3`.
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`values_count` is a count of how many values are in the array pointed to by
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`values`. `values` is a pointer to an array of `uint32_t` values, which are
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the values passed to the Linux private escape.
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#### Terminal context control
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The `write()` function can additionally be used to set and restore terminal
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context, and refresh the terminal fully.
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In order to achieve this, special values for the `length` argument are
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passed. These values are:
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```c
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#define LIMINE_TERMINAL_CTX_SIZE ((uint64_t)(-1))
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#define LIMINE_TERMINAL_CTX_SAVE ((uint64_t)(-2))
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#define LIMINE_TERMINAL_CTX_RESTORE ((uint64_t)(-3))
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#define LIMINE_TERMINAL_FULL_REFRESH ((uint64_t)(-4))
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```
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For `CTX_SIZE`, the `ptr` variable has to point to a location to which the
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terminal will *write* a single `uint64_t` which contains the size of the
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terminal context.
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For `CTX_SAVE` and `CTX_RESTORE`, the `ptr` variable has to point to a
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location to which the terminal will *save* or *restore* its context from,
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respectively.
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This location must have a size congruent to the value received from
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`CTX_SIZE`.
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For `FULL_REFRESH`, the `ptr` variable is unused. This routine is to be used
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after control of the framebuffer is taken over and the bootloader's terminal
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has to *fully* repaint the framebuffer to avoid inconsistencies.
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#### x86_64
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Additionally, the kernel must ensure, when calling `write()`, that:
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* Either the GDT provided by the bootloader is still properly loaded, or a
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custom GDT is loaded with at least the following descriptors in this specific
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order:
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- Null descriptor
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- 16-bit code descriptor. Base = `0`, limit = `0xffff`. Readable.
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- 16-bit data descriptor. Base = `0`, limit = `0xffff`. Writable.
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- 32-bit code descriptor. Base = `0`, limit = `0xffffffff`. Readable.
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- 32-bit data descriptor. Base = `0`, limit = `0xffffffff`. Writable.
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- 64-bit code descriptor. Base and limit irrelevant. Readable.
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- 64-bit data descriptor. Base and limit irrelevant. Writable.
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* The currently loaded virtual address space is still the one provided at
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entry by the bootloader, or a custom virtual address space is loaded which
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identity maps the framebuffer memory region associated with the terminal, and
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all the bootloader reclaimable memory regions, with read, write, and execute
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permissions.
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* The routine is called *by its physical address* (the value of the function
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pointer is already physical), which should be identity mapped.
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* Bootloader-reclaimable memory entries are left untouched until after the
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kernel is done utilising bootloader-provided facilities (this terminal being
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one of them).
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Notes regarding segment registers and FPU:
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The values of the FS and GS segments are guaranteed preserved across the
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call. All other segment registers may have their "hidden" portion
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overwritten, but Limine guarantees that the "visible" portion is going to
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be restored to the one used at the time of call before returning.
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No registers other than the segment registers and general purpose registers
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are going to be used. Especially, this means that there is no need to save
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and restore FPU, SSE, or AVX state when calling the terminal write function.
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#### Terminal characteristics
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The terminal should strive for Linux console compatibility.
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### Framebuffer Feature
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ID:
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```c
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#define LIMINE_FRAMEBUFFER_REQUEST { LIMINE_COMMON_MAGIC, 0x9d5827dcd881dd75, 0xa3148604f6fab11b }
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```
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Request:
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```c
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struct limine_framebuffer_request {
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uint64_t id[4];
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uint64_t revision;
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struct limine_framebuffer_response *response;
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};
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```
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Response:
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```c
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struct limine_framebuffer_response {
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uint64_t revision;
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uint64_t framebuffer_count;
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struct limine_framebuffer **framebuffers;
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};
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```
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* `framebuffer_count` - How many framebuffers are present.
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* `framebuffers` - Pointer to an array of `framebuffer_count` pointers to
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`struct limine_framebuffer` structures.
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```c
|
|
// Constants for `memory_model`
|
|
#define LIMINE_FRAMEBUFFER_RGB 1
|
|
|
|
struct limine_framebuffer {
|
|
void *address;
|
|
uint64_t width;
|
|
uint64_t height;
|
|
uint64_t pitch;
|
|
uint16_t bpp; // Bits per pixel
|
|
uint8_t memory_model;
|
|
uint8_t red_mask_size;
|
|
uint8_t red_mask_shift;
|
|
uint8_t green_mask_size;
|
|
uint8_t green_mask_shift;
|
|
uint8_t blue_mask_size;
|
|
uint8_t blue_mask_shift;
|
|
uint8_t unused[7];
|
|
uint64_t edid_size;
|
|
void *edid;
|
|
};
|
|
```
|
|
|
|
### 5-Level Paging Feature
|
|
|
|
ID:
|
|
```c
|
|
#define LIMINE_5_LEVEL_PAGING_REQUEST { LIMINE_COMMON_MAGIC, 0x94469551da9b3192, 0xebe5e86db7382888 }
|
|
```
|
|
|
|
Request:
|
|
```c
|
|
struct limine_5_level_paging_request {
|
|
uint64_t id[4];
|
|
uint64_t revision;
|
|
struct limine_5_level_paging_response *response;
|
|
};
|
|
```
|
|
|
|
Response:
|
|
```c
|
|
struct limine_5_level_paging_response {
|
|
uint64_t revision;
|
|
};
|
|
```
|
|
|
|
Notes: The presence of this request will prompt the bootloader to turn on
|
|
x86_64 5-level paging. It will not be turned on if this request is not present.
|
|
If the response pointer is changed to a valid pointer, 5-level paging is engaged.
|
|
|
|
### SMP (multiprocessor) Feature
|
|
|
|
ID:
|
|
```c
|
|
#define LIMINE_SMP_REQUEST { LIMINE_COMMON_MAGIC, 0x95a67b819a1b857e, 0xa0b61b723b6a73e0 }
|
|
```
|
|
|
|
Request:
|
|
```c
|
|
struct limine_smp_request {
|
|
uint64_t id[4];
|
|
uint64_t revision;
|
|
struct limine_smp_response *response;
|
|
uint64_t flags;
|
|
};
|
|
```
|
|
|
|
* `flags` - Bit 0: Enable X2APIC, if possible.
|
|
|
|
Response:
|
|
```c
|
|
struct limine_smp_response {
|
|
uint64_t revision;
|
|
uint32_t flags;
|
|
uint32_t bsp_lapic_id;
|
|
uint64_t cpu_count;
|
|
struct limine_smp_info **cpus;
|
|
};
|
|
```
|
|
|
|
* `flags` - Bit 0: X2APIC has been enabled.
|
|
* `bsp_lapic_id` - The Local APIC ID of the bootstrap processor.
|
|
* `cpu_count` - How many CPUs are present. It includes the bootstrap processor.
|
|
* `cpus` - Pointer to an array of `cpu_count` pointers to
|
|
`struct limine_smp_info` structures.
|
|
|
|
Notes: The presence of this request will prompt the bootloader to bootstrap
|
|
the secondary processors. This will not be done if this request is not present.
|
|
|
|
```c
|
|
struct limine_smp_info;
|
|
|
|
typedef void (*limine_goto_address)(struct limine_smp_info *);
|
|
|
|
struct limine_smp_info {
|
|
uint32_t processor_id;
|
|
uint32_t lapic_id;
|
|
uint64_t reserved;
|
|
limine_goto_address goto_address;
|
|
uint64_t extra_argument;
|
|
};
|
|
```
|
|
|
|
* `processor_id` - ACPI Processor UID as specified by the MADT
|
|
* `lapic_id` - Local APIC ID of the processor as specified by the MADT
|
|
* `goto_address` - An atomic write to this field causes the parked CPU to
|
|
jump to the written address, on a 64KiB (or Stack Size Request size) stack. A pointer to the
|
|
`struct limine_smp_info` structure of the CPU is passed in `RDI`. Other than
|
|
that, the CPU state will be the same as described for the bootstrap
|
|
processor. This field is unused for the structure describing the bootstrap
|
|
processor.
|
|
* `extra_argument` - A free for use field.
|
|
|
|
### Memory Map Feature
|
|
|
|
ID:
|
|
```c
|
|
#define LIMINE_MEMMAP_REQUEST { LIMINE_COMMON_MAGIC, 0x67cf3d9d378a806f, 0xe304acdfc50c3c62 }
|
|
```
|
|
|
|
Request:
|
|
```c
|
|
struct limine_memmap_request {
|
|
uint64_t id[4];
|
|
uint64_t revision;
|
|
struct limine_memmap_response *response;
|
|
};
|
|
```
|
|
|
|
Response:
|
|
```c
|
|
struct limine_memmap_response {
|
|
uint64_t revision;
|
|
uint64_t entry_count;
|
|
struct limine_memmap_entry **entries;
|
|
};
|
|
```
|
|
|
|
* `entry_count` - How many memory map entries are present.
|
|
* `entries` - Pointer to an array of `entry_count` pointers to
|
|
`struct limine_memmap_entry` structures.
|
|
|
|
```c
|
|
// Constants for `type`
|
|
#define LIMINE_MEMMAP_USABLE 0
|
|
#define LIMINE_MEMMAP_RESERVED 1
|
|
#define LIMINE_MEMMAP_ACPI_RECLAIMABLE 2
|
|
#define LIMINE_MEMMAP_ACPI_NVS 3
|
|
#define LIMINE_MEMMAP_BAD_MEMORY 4
|
|
#define LIMINE_MEMMAP_BOOTLOADER_RECLAIMABLE 5
|
|
#define LIMINE_MEMMAP_KERNEL_AND_MODULES 6
|
|
#define LIMINE_MEMMAP_FRAMEBUFFER 7
|
|
|
|
struct limine_memmap_entry {
|
|
uint64_t base;
|
|
uint64_t length;
|
|
uint64_t type;
|
|
};
|
|
```
|
|
|
|
Note: The kernel and modules loaded are not marked as usable memory.
|
|
They are marked as Kernel/Modules. The entries are guaranteed to be sorted by
|
|
base address, lowest to highest. Usable and bootloader reclaimable entries
|
|
are guaranteed to be 4096 byte aligned for both base and length. Usable and
|
|
bootloader reclaimable entries are guaranteed not to overlap with any other
|
|
entry. To the contrary, all non-usable entries (including kernel/modules) are
|
|
not guaranteed any alignment, nor is it guaranteed that they do not overlap
|
|
other entries.
|
|
|
|
### Entry Point Feature
|
|
|
|
ID:
|
|
```c
|
|
#define LIMINE_ENTRY_POINT_REQUEST { LIMINE_COMMON_MAGIC, 0x13d86c035a1cd3e1, 0x2b0caa89d8f3026a }
|
|
```
|
|
|
|
Request:
|
|
```c
|
|
typedef void (*limine_entry_point)(void);
|
|
|
|
struct limine_entry_point_request {
|
|
uint64_t id[4];
|
|
uint64_t revision;
|
|
struct limine_entry_point_response *response;
|
|
limine_entry_point entry;
|
|
};
|
|
```
|
|
|
|
* `entry` - The requested entry point.
|
|
|
|
Response:
|
|
```c
|
|
struct limine_entry_point_response {
|
|
uint64_t revision;
|
|
};
|
|
```
|
|
|
|
### Kernel File Feature
|
|
|
|
ID:
|
|
```c
|
|
#define LIMINE_KERNEL_FILE_REQUEST { LIMINE_COMMON_MAGIC, 0xad97e90e83f1ed67, 0x31eb5d1c5ff23b69 }
|
|
```
|
|
|
|
Request:
|
|
```c
|
|
struct limine_kernel_file_request {
|
|
uint64_t id[4];
|
|
uint64_t revision;
|
|
struct limine_kernel_file_response *response;
|
|
};
|
|
```
|
|
|
|
Response:
|
|
```c
|
|
struct limine_kernel_file_response {
|
|
uint64_t revision;
|
|
struct limine_file *kernel_file;
|
|
};
|
|
```
|
|
|
|
* `kernel_file` - Pointer to the `struct limine_file` structure (see below)
|
|
for the kernel file.
|
|
|
|
### Module Feature
|
|
|
|
ID:
|
|
```c
|
|
#define LIMINE_MODULE_REQUEST { LIMINE_COMMON_MAGIC, 0x3e7e279702be32af, 0xca1c4f3bd1280cee }
|
|
```
|
|
|
|
Request:
|
|
```c
|
|
struct limine_module_request {
|
|
uint64_t id[4];
|
|
uint64_t revision;
|
|
struct limine_module_response *response;
|
|
};
|
|
```
|
|
|
|
Response:
|
|
```c
|
|
struct limine_module_response {
|
|
uint64_t revision;
|
|
uint64_t module_count;
|
|
struct limine_file **modules;
|
|
};
|
|
```
|
|
|
|
* `module_count` - How many modules are present.
|
|
* `modules` - Pointer to an array of `module_count` pointers to
|
|
`struct limine_file` structures (see below).
|
|
|
|
### File Structure
|
|
|
|
```c
|
|
struct limine_uuid {
|
|
uint32_t a;
|
|
uint16_t b;
|
|
uint16_t c;
|
|
uint8_t d[8];
|
|
};
|
|
|
|
#define LIMINE_MEDIA_TYPE_GENERIC 0
|
|
#define LIMINE_MEDIA_TYPE_OPTICAL 1
|
|
#define LIMINE_MEDIA_TYPE_TFTP 2
|
|
|
|
struct limine_file {
|
|
uint64_t revision;
|
|
void *address;
|
|
uint64_t size;
|
|
char *path;
|
|
char *cmdline;
|
|
uint32_t media_type;
|
|
uint32_t unused;
|
|
uint32_t tftp_ip;
|
|
uint32_t tftp_port;
|
|
uint32_t partition_index;
|
|
uint32_t mbr_disk_id;
|
|
struct limine_uuid gpt_disk_uuid;
|
|
struct limine_uuid gpt_part_uuid;
|
|
struct limine_uuid part_uuid;
|
|
};
|
|
```
|
|
|
|
* `revision` - Revision of the `struct limine_file` structure.
|
|
* `address` - The address of the file.
|
|
* `size` - The size of the file.
|
|
* `path` - The path of the file within the volume, with a leading slash.
|
|
* `cmdline` - A command line associated with the file.
|
|
* `media_type` - Type of media file resides on.
|
|
* `tftp_ip` - If non-0, this is the IP of the TFTP server the file was loaded
|
|
from.
|
|
* `tftp_port` - Likewise, but port.
|
|
* `partition_index` - 1-based partition index of the volume from which the
|
|
file was loaded. If 0, it means invalid or unpartitioned.
|
|
* `mbr_disk_id` - If non-0, this is the ID of the disk the file was loaded
|
|
from as reported in its MBR.
|
|
* `gpt_disk_uuid` - If non-0, this is the UUID of the disk the file was
|
|
loaded from as reported in its GPT.
|
|
* `gpt_part_uuid` - If non-0, this is the UUID of the partition the file
|
|
was loaded from as reported in the GPT.
|
|
* `part_uuid` - If non-0, this is the UUID of the filesystem of the partition
|
|
the file was loaded from.
|
|
|
|
### RSDP Feature
|
|
|
|
ID:
|
|
```c
|
|
#define LIMINE_RSDP_REQUEST { LIMINE_COMMON_MAGIC, 0xc5e77b6b397e7b43, 0x27637845accdcf3c }
|
|
```
|
|
|
|
Request:
|
|
```c
|
|
struct limine_rsdp_request {
|
|
uint64_t id[4];
|
|
uint64_t revision;
|
|
struct limine_rsdp_response *response;
|
|
};
|
|
```
|
|
|
|
Response:
|
|
```c
|
|
struct limine_rsdp_response {
|
|
uint64_t revision;
|
|
void *address;
|
|
};
|
|
```
|
|
|
|
* `address` - Address of the RSDP table.
|
|
|
|
### SMBIOS Feature
|
|
|
|
ID:
|
|
```c
|
|
#define LIMINE_SMBIOS_REQUEST { LIMINE_COMMON_MAGIC, 0x9e9046f11e095391, 0xaa4a520fefbde5ee }
|
|
```
|
|
|
|
Request:
|
|
```c
|
|
struct limine_smbios_request {
|
|
uint64_t id[4];
|
|
uint64_t revision;
|
|
struct limine_smbios_response *response;
|
|
};
|
|
```
|
|
|
|
Response:
|
|
```c
|
|
struct limine_smbios_response {
|
|
uint64_t revision;
|
|
void *entry_32;
|
|
void *entry_64;
|
|
};
|
|
```
|
|
|
|
* `entry_32` - Address of the 32-bit SMBIOS entry point. NULL if not present.
|
|
* `entry_64` - Address of the 64-bit SMBIOS entry point. NULL if not present.
|
|
|
|
### EFI System Table Feature
|
|
|
|
ID:
|
|
```c
|
|
#define LIMINE_EFI_SYSTEM_TABLE_REQUEST { LIMINE_COMMON_MAGIC, 0x5ceba5163eaaf6d6, 0x0a6981610cf65fcc }
|
|
```
|
|
|
|
Request:
|
|
```c
|
|
struct limine_efi_system_table_request {
|
|
uint64_t id[4];
|
|
uint64_t revision;
|
|
struct limine_efi_system_table_response *response;
|
|
};
|
|
```
|
|
|
|
Response:
|
|
```c
|
|
struct limine_efi_system_table_response {
|
|
uint64_t revision;
|
|
void *address;
|
|
};
|
|
```
|
|
|
|
* `address` - Address of EFI system table.
|
|
|
|
### Boot Time Feature
|
|
|
|
ID:
|
|
```c
|
|
#define LIMINE_BOOT_TIME_REQUEST { LIMINE_COMMON_MAGIC, 0x502746e184c088aa, 0xfbc5ec83e6327893 }
|
|
```
|
|
|
|
Request:
|
|
```c
|
|
struct limine_boot_time_request {
|
|
uint64_t id[4];
|
|
uint64_t revision;
|
|
struct limine_boot_time_response *response;
|
|
};
|
|
```
|
|
|
|
Response:
|
|
```c
|
|
struct limine_boot_time_response {
|
|
uint64_t revision;
|
|
int64_t boot_time;
|
|
};
|
|
```
|
|
|
|
* `boot_time` - The UNIX time on boot, in seconds, taken from the system RTC.
|
|
|
|
### Kernel Address Feature
|
|
|
|
ID:
|
|
```c
|
|
#define LIMINE_KERNEL_ADDRESS_REQUEST { LIMINE_COMMON_MAGIC, 0x71ba76863cc55f63, 0xb2644a48c516a487 }
|
|
```
|
|
|
|
Request:
|
|
```c
|
|
struct limine_kernel_address_request {
|
|
uint64_t id[4];
|
|
uint64_t revision;
|
|
struct limine_kernel_address_response *response;
|
|
};
|
|
```
|
|
|
|
Response:
|
|
```c
|
|
struct limine_kernel_address_response {
|
|
uint64_t revision;
|
|
uint64_t physical_base;
|
|
uint64_t virtual_base;
|
|
};
|
|
```
|
|
|
|
* `physical_base` - The physical base address of the kernel.
|
|
* `virtual_base` - The virtual base address of the kernel.
|