2020-08-11 19:10:38 +03:00
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# stivale2 boot protocol specification
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2020-08-11 18:53:37 +03:00
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2020-08-11 19:10:38 +03:00
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The stivale2 boot protocol is an improved version of the stivale protocol which
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2020-08-11 18:53:37 +03:00
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provides the kernel with most of the features one may need in a *modern*
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x86_64 context (although 32-bit x86 is also supported).
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## General information
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2020-08-11 19:10:38 +03:00
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In order to have a stivale2 compliant kernel, one must have a kernel executable
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in the `elf64` or `elf32` format and have a `.stivale2hdr` section (described below).
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Other executable formats are not supported.
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stivale2 will recognise whether the ELF file is 32-bit or 64-bit and load the kernel
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into the appropriate CPU mode.
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stivale2 natively supports (only for 64-bit kernels) and encourages higher half kernels.
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The kernel can load itself at `0xffffffff80100000` or higher (as defined in the linker script)
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and the bootloader will take care of everything, no AT linker script directives needed.
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If the kernel loads itself in the lower half (`0x100000` or higher), the bootloader
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will not perform the higher half relocation.
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The kernel MUST NOT overwrite anything below `0x100000` (physical memory) as that
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is where the bootloader memory structures reside.
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Once the kernel is DONE depending on the bootloader (for page tables, structures, ...)
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then these areas can be reclaimed if one wants.
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The kernel MUST NOT request to load itself at an address lower than `0x100000`
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(or `0xffffffff80100000` for higher half kernels) for the same reasons as above.
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## Kernel entry machine state
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### 64-bit kernel
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`rip` will be the entry point as defined in the ELF file, unless the `entry_point`
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field in the stivale2 header is set to a non-0 value, in which case, it is set to
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the value of `entry_point`.
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At entry, the bootloader will have setup paging mappings as such:
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```
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Base Physical Address - Size -> Virtual address
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0x0000000000000000 - 4 GiB plus any additional memory map entry -> 0x0000000000000000
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0x0000000000000000 - 4 GiB plus any additional memory map entry -> 0xffff800000000000 (4-level paging only)
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0x0000000000000000 - 4 GiB plus any additional memory map entry -> 0xff00000000000000 (5-level paging only)
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0x0000000000000000 - 0x80000000 -> 0xffffffff80000000
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```
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If the kernel is dynamic and not statically linked, the bootloader will relocate it.
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Furthermore if bit 0 of the flags field in the stivale2 header is set, the bootloader
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will perform kernel address space layout randomisation (KASLR).
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The kernel should NOT modify the bootloader page tables, and it should only use them
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to bootstrap its own virtual memory manager and its own page tables.
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At entry all segment registers are loaded as 64 bit code/data segments, limits and
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bases are ignored since this is Long Mode.
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DO NOT reload segment registers or rely on the provided GDT. The kernel MUST load
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its own GDT as soon as possible and not rely on the bootloader's.
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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 undefined.
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PG is enabled (`cr0`), PE is enabled (`cr0`), PAE is enabled (`cr4`),
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LME is enabled (`EFER`).
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If the stivale2 header tag for 5-level paging is present, then, if available,
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5-level paging is enabled (LA57 bit in `cr4`).
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The A20 gate is enabled.
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PIC/APIC IRQs are all masked.
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`rsp` is set to the requested stack as per stivale2 header. If the requested value is
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non-null, an invalid return address of 0 is pushed to the stack before jumping
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to the kernel.
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`rdi` will point to the stivale2 structure (described below).
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All other general purpose registers are set to 0.
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### 32-bit kernel
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`eip` will be the entry point as defined in the ELF file, unless the `entry_point`
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field in the stivale2 header is set to a non-0 value, in which case, it is set to
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the value of `entry_point`.
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At entry all segment registers are loaded as 32 bit code/data segments.
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All segment bases are `0x00000000` and all limits are `0xffffffff`.
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DO NOT reload segment registers or rely on the provided GDT. The kernel MUST load
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its own GDT as soon as possible and not rely on the bootloader's.
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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 undefined.
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PE is enabled (`cr0`).
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The A20 gate is enabled.
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PIC/APIC IRQs are all masked.
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`esp` is set to the requested stack as per stivale2 header. An invalid return address
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of 0 is pushed to the stack before jumping to the kernel.
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A pointer to the stivale2 structure (described below) is pushed onto this stack
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before the entry point is called.
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All other general purpose registers are set to 0.
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2020-08-11 19:10:38 +03:00
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## stivale2 header (.stivale2hdr)
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2020-08-11 19:10:38 +03:00
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The kernel executable shall have a section `.stivale2hdr` which will contain
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the header that the bootloader will parse.
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Said header looks like this:
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```c
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struct stivale2_header {
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uint64_t entry_point; // If not 0, this address will be jumped to as the
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// entry point of the kernel.
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// If set to 0, the ELF entry point will be used
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// instead.
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uint64_t stack; // This is the stack address which will be in ESP/RSP
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// when the kernel is loaded.
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// It can only be set to NULL for 64-bit kernels. 32-bit
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// kernels are mandated to provide a vaild stack.
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// 64-bit and 32-bit valid stacks must be at least 256 bytes
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// in usable space and must be 16 byte aligned addresses.
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uint64_t flags; // Bit 0: if 1, enable KASLR
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// All other bits undefined
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uint64_t tags; // Pointer to the first of the linked list of tags.
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// see "stivale2 header tags" section.
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// NULL = no tags.
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} __attribute__((packed));
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```
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### stivale2 header tags
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The stivale2 header uses a mechanism to avoid having protocol versioning, but
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rather, feature-specific support detection.
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The kernel executable provides the bootloader with a linked list of structures,
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the first of which is pointed to by the `tags` entry of the stivale2 header.
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Each tag shall contain these 2 fields:
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```c
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struct stivale2_hdr_tag {
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uint64_t identifier;
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uint64_t next;
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} __attribute__((packed));
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```
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The `identifier` field identifies what feature the tag is requesting from the
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bootloader.
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The `next` field points to another tag in the linked list. A NULL value determines
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the end of the linked list.
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Tag structures can have more than just these 2 members, but these 2 members MUST
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appear at the beginning of any given tag.
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Tags can have no extra members and just serve as "flags" to enable some behaviour
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that does not require extra parameters.
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#### Framebuffer header tag
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This tag asks the stivale2-compliant bootloader to initialise a graphical framebuffer
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video mode.
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Omitting this tag will make the bootloader default to a CGA-compatible text mode,
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if supported.
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```c
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struct stivale2_hdr_tag_framebuffer {
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uint64_t identifier; // Identifier: 0x3ecc1bc43d0f7971
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uint64_t next;
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uint16_t framebuffer_width; // If all values are set to 0
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uint16_t framebuffer_height; // then the bootloader will pick the best possible
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uint16_t framebuffer_bpp; // video mode automatically.
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} __attribute__((packed));
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```
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#### 5-level paging header tag
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The presence of this tag enables support for 5-level paging, if available.
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Identifier: `0x932f477032007e8f`
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This tag does not have extra members.
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## stivale2 structure
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The stivale2 structure returned by the bootloader looks like this:
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```c
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struct stivale2_struct {
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char bootloader_brand[64]; // Bootloader null-terminated brand string
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char bootloader_version[64]; // Bootloader null-terminated version string
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uint64_t tags; // Pointer to the first of the linked list of tags.
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// see "stivale2 structure tags" section.
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// NULL = no tags.
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} __attribute__((packed));
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```
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### stivale2 structure tags
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These tags work *very* similarly to the header tags, with the main difference being
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that these tags are returned to the kernel by the bootloader, instead.
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See "stivale2 header tags".
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The kernel is responsible for parsing the tags and the identifiers, and interpreting
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the tags that it supports, while handling in a graceful manner the tags it does not
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recognise.
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#### Command line structure tag
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This tag reports to the kernel the command line string that was passed to it by
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the bootloader.
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```c
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struct stivale2_struct_tag_cmdline {
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uint64_t identifier; // Identifier: 0xe5e76a1b4597a781
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uint64_t next;
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uint64_t cmdline; // Pointer to a null-terminated cmdline
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} __attribute__((packed));
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```
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#### Memory map structure tag
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This tag reports to the kernel the memory map built by the bootloader.
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```c
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struct stivale2_struct_tag_memmap {
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uint64_t identifier; // Identifier: 0x2187f79e8612de07
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uint64_t next;
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uint64_t entries; // Count of memory map entries
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struct stivale2_mmap_entry memmap[]; // Array of memory map entries
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} __attribute__((packed));
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```
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###### Memory map entry
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```c
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struct stivale2_mmap_entry {
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uint64_t base; // Base of the memory section
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uint64_t length; // Length of the section
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enum stivale2_mmap_type type; // Type (described below)
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uint32_t unused;
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} __attribute__((packed));
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```
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`type` is an enumeration that can have the following values:
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```
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enum stivale2_mmap_type : uint32_t {
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USABLE = 1,
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RESERVED = 2,
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ACPI_RECLAIMABLE = 3,
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ACPI_NVS = 4,
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BAD_MEMORY = 5,
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BOOTLOADER_RECLAIMABLE = 0x1000,
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KERNEL_AND_MODULES = 0x1001
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};
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```
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All other values are undefined.
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The kernel and modules loaded **are not** marked as usable memory. They are marked
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as Kernel/Modules (type 0x1001).
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Usable RAM chunks are guaranteed to be 4096 byte aligned for both base and length.
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The entries are guaranteed to be sorted by base address, lowest to highest.
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Usable RAM chunks are guaranteed not to overlap with any other entry.
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To the contrary, all non-usable RAM chunks are not guaranteed any alignment, nor
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is it guaranteed that they do not overlap each other (except usable RAM).
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#### Framebuffer structure tag
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This tag reports to the kernel the currently set up framebuffer details, if any.
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```c
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struct stivale2_struct_tag_framebuffer {
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uint64_t identifier; // Identifier: 0x506461d2950408fa
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uint64_t next;
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uint64_t framebuffer_addr; // Address of the framebuffer and related info
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uint16_t framebuffer_width;
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uint16_t framebuffer_height;
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uint16_t framebuffer_pitch;
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uint16_t framebuffer_bpp;
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} __attribute__((packed));
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```
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#### Modules structure tag
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This tag lists modules that the bootloader loaded alongside the kernel, if any.
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```c
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struct stivale2_struct_tag_modules {
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uint64_t identifier; // Identifier: 0x4b6fe466aade04ce
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uint64_t next;
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uint64_t module_count; // Count of loaded modules
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struct stivale2_module modules[]; // Array of module descriptors
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} __attribute__((packed));
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```
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```c
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2020-08-11 19:10:38 +03:00
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struct stivale2_module {
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2020-08-11 18:53:37 +03:00
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uint64_t begin; // Address where the module is loaded
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uint64_t end; // End address of the module
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char string[128]; // 0-terminated string passed to the module
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} __attribute__((packed));
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```
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#### RSDP structure tag
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This tag reports to the kernel the location of the ACPI RSDP structure in memory.
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|
```c
|
2020-08-11 19:10:38 +03:00
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struct stivale2_struct_tag_rsdp {
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2020-08-11 18:53:37 +03:00
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uint64_t identifier; // Identifier: 0x9e1786930a375e78
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uint64_t next;
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uint64_t rsdp; // Pointer to the ACPI RSDP structure
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} __attribute__((packed));
|
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|
```
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|
#### Epoch structure tag
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This tag reports to the kernel the current UNIX epoch, as per RTC.
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|
|
```c
|
2020-08-11 19:10:38 +03:00
|
|
|
struct stivale2_struct_tag_epoch {
|
2020-08-11 18:53:37 +03:00
|
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uint64_t identifier; // Identifier: 0x566a7bed888e1407
|
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|
uint64_t next;
|
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|
|
uint64_t epoch; // UNIX epoch at boot, read from system RTC
|
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|
|
} __attribute__((packed));
|
|
|
|
```
|
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|
#### Firmware structure tag
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|
This tag reports to the kernel info about the firmware.
|
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|
|
```c
|
2020-08-11 19:10:38 +03:00
|
|
|
struct stivale2_struct_tag_firmware {
|
2020-08-11 18:53:37 +03:00
|
|
|
uint64_t identifier; // Identifier: 0x359d837855e3858c
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|
|
uint64_t next;
|
|
|
|
uint64_t flags; // Bit 0: 0 = UEFI, 1 = BIOS
|
|
|
|
} __attribute__((packed));
|
|
|
|
```
|