/* BSD Zero Clause License */ /* Copyright (C) 2022-2025 Mintsuki and contributors. * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION * OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #ifndef LIMINE_H #define LIMINE_H 1 #include #ifdef __cplusplus extern "C" { #endif /* Misc */ #ifdef LIMINE_NO_POINTERS # define LIMINE_PTR(TYPE) uint64_t #else # define LIMINE_PTR(TYPE) TYPE #endif #define LIMINE_REQUESTS_START_MARKER { 0xf6b8f4b39de7d1ae, 0xfab91a6940fcb9cf, \ 0x785c6ed015d3e316, 0x181e920a7852b9d9 } #define LIMINE_REQUESTS_END_MARKER { 0xadc0e0531bb10d03, 0x9572709f31764c62 } #define LIMINE_BASE_REVISION(N) { 0xf9562b2d5c95a6c8, 0x6a7b384944536bdc, (N) } #define LIMINE_BASE_REVISION_SUPPORTED(VAR) ((VAR)[2] == 0) #define LIMINE_LOADED_BASE_REVISION_VALID(VAR) ((VAR)[1] != 0x6a7b384944536bdc) #define LIMINE_LOADED_BASE_REVISION(VAR) ((VAR)[1]) #define LIMINE_COMMON_MAGIC 0xc7b1dd30df4c8b88, 0x0a82e883a194f07b 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; LIMINE_PTR(void *) address; uint64_t size; LIMINE_PTR(char *) path; LIMINE_PTR(char *) string; 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; }; /* Boot info */ #define LIMINE_BOOTLOADER_INFO_REQUEST_ID { LIMINE_COMMON_MAGIC, 0xf55038d8e2a1202f, 0x279426fcf5f59740 } struct limine_bootloader_info_response { uint64_t revision; LIMINE_PTR(char *) name; LIMINE_PTR(char *) version; }; struct limine_bootloader_info_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_bootloader_info_response *) response; }; /* Executable command line */ #define LIMINE_EXECUTABLE_CMDLINE_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x4b161536e598651e, 0xb390ad4a2f1f303a } struct limine_executable_cmdline_response { uint64_t revision; LIMINE_PTR(char *) cmdline; }; struct limine_executable_cmdline_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_executable_cmdline_response *) response; }; /* Firmware type */ #define LIMINE_FIRMWARE_TYPE_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x8c2f75d90bef28a8, 0x7045a4688eac00c3 } #define LIMINE_FIRMWARE_TYPE_X86BIOS 0 #define LIMINE_FIRMWARE_TYPE_EFI32 1 #define LIMINE_FIRMWARE_TYPE_EFI64 2 #define LIMINE_FIRMWARE_TYPE_SBI 3 struct limine_firmware_type_response { uint64_t revision; uint64_t firmware_type; }; struct limine_firmware_type_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_firmware_type_response *) response; }; /* Stack size */ #define LIMINE_STACK_SIZE_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x224ef0460a8e8926, 0xe1cb0fc25f46ea3d } struct limine_stack_size_response { uint64_t revision; }; struct limine_stack_size_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_stack_size_response *) response; uint64_t stack_size; }; /* HHDM */ #define LIMINE_HHDM_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x48dcf1cb8ad2b852, 0x63984e959a98244b } struct limine_hhdm_response { uint64_t revision; uint64_t offset; }; struct limine_hhdm_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_hhdm_response *) response; }; /* Framebuffer */ #define LIMINE_FRAMEBUFFER_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x9d5827dcd881dd75, 0xa3148604f6fab11b } #define LIMINE_FRAMEBUFFER_RGB 1 struct limine_video_mode { uint64_t pitch; uint64_t width; uint64_t height; uint16_t bpp; 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; }; struct limine_framebuffer { LIMINE_PTR(void *) address; uint64_t width; uint64_t height; uint64_t pitch; uint16_t bpp; 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; LIMINE_PTR(void *) edid; /* Response revision 1 */ uint64_t mode_count; LIMINE_PTR(struct limine_video_mode **) modes; }; struct limine_framebuffer_response { uint64_t revision; uint64_t framebuffer_count; LIMINE_PTR(struct limine_framebuffer **) framebuffers; }; struct limine_framebuffer_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_framebuffer_response *) response; }; /* Paging mode */ #define LIMINE_PAGING_MODE_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x95c1a0edab0944cb, 0xa4e5cb3842f7488a } #define LIMINE_PAGING_MODE_X86_64_4LVL 0 #define LIMINE_PAGING_MODE_X86_64_5LVL 1 #define LIMINE_PAGING_MODE_X86_64_MIN LIMINE_PAGING_MODE_X86_64_4LVL #define LIMINE_PAGING_MODE_X86_64_DEFAULT LIMINE_PAGING_MODE_X86_64_4LVL #define LIMINE_PAGING_MODE_AARCH64_4LVL 0 #define LIMINE_PAGING_MODE_AARCH64_5LVL 1 #define LIMINE_PAGING_MODE_AARCH64_MIN LIMINE_PAGING_MODE_AARCH64_4LVL #define LIMINE_PAGING_MODE_AARCH64_DEFAULT LIMINE_PAGING_MODE_AARCH64_4LVL #define LIMINE_PAGING_MODE_RISCV_SV39 0 #define LIMINE_PAGING_MODE_RISCV_SV48 1 #define LIMINE_PAGING_MODE_RISCV_SV57 2 #define LIMINE_PAGING_MODE_RISCV_MIN LIMINE_PAGING_MODE_RISCV_SV39 #define LIMINE_PAGING_MODE_RISCV_DEFAULT LIMINE_PAGING_MODE_RISCV_SV48 #define LIMINE_PAGING_MODE_LOONGARCH_4LVL 0 #define LIMINE_PAGING_MODE_LOONGARCH_MIN LIMINE_PAGING_MODE_LOONGARCH_4LVL #define LIMINE_PAGING_MODE_LOONGARCH_DEFAULT LIMINE_PAGING_MODE_LOONGARCH_4LVL struct limine_paging_mode_response { uint64_t revision; uint64_t mode; }; struct limine_paging_mode_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_paging_mode_response *) response; uint64_t mode; uint64_t max_mode; uint64_t min_mode; }; /* MP */ #define LIMINE_MP_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x95a67b819a1b857e, 0xa0b61b723b6a73e0 } struct limine_mp_info; typedef void (*limine_goto_address)(struct limine_mp_info *); #if defined (__x86_64__) || defined (__i386__) #define LIMINE_MP_RESPONSE_X86_64_X2APIC (1 << 0) struct limine_mp_info { uint32_t processor_id; uint32_t lapic_id; uint64_t reserved; LIMINE_PTR(limine_goto_address) goto_address; uint64_t extra_argument; }; struct limine_mp_response { uint64_t revision; uint32_t flags; uint32_t bsp_lapic_id; uint64_t cpu_count; LIMINE_PTR(struct limine_mp_info **) cpus; }; #elif defined (__aarch64__) struct limine_mp_info { uint32_t processor_id; uint32_t reserved1; uint64_t mpidr; uint64_t reserved; LIMINE_PTR(limine_goto_address) goto_address; uint64_t extra_argument; }; struct limine_mp_response { uint64_t revision; uint64_t flags; uint64_t bsp_mpidr; uint64_t cpu_count; LIMINE_PTR(struct limine_mp_info **) cpus; }; #elif defined (__riscv) && (__riscv_xlen == 64) struct limine_mp_info { uint64_t processor_id; uint64_t hartid; uint64_t reserved; LIMINE_PTR(limine_goto_address) goto_address; uint64_t extra_argument; }; struct limine_mp_response { uint64_t revision; uint64_t flags; uint64_t bsp_hartid; uint64_t cpu_count; LIMINE_PTR(struct limine_mp_info **) cpus; }; #elif defined (__loongarch__) && (__loongarch_grlen == 64) struct limine_mp_info { uint64_t reserved; }; struct limine_mp_response { uint64_t cpu_count; LIMINE_PTR(struct limine_mp_info **) cpus; }; #else #error Unknown architecture #endif #define LIMINE_MP_REQUEST_X86_64_X2APIC (1 << 0) struct limine_mp_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_mp_response *) response; uint64_t flags; }; /* Memory map */ #define LIMINE_MEMMAP_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x67cf3d9d378a806f, 0xe304acdfc50c3c62 } #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_EXECUTABLE_AND_MODULES 6 #define LIMINE_MEMMAP_FRAMEBUFFER 7 #define LIMINE_MEMMAP_ACPI_TABLES 8 struct limine_memmap_entry { uint64_t base; uint64_t length; uint64_t type; }; struct limine_memmap_response { uint64_t revision; uint64_t entry_count; LIMINE_PTR(struct limine_memmap_entry **) entries; }; struct limine_memmap_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_memmap_response *) response; }; /* Entry point */ #define LIMINE_ENTRY_POINT_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x13d86c035a1cd3e1, 0x2b0caa89d8f3026a } typedef void (*limine_entry_point)(void); struct limine_entry_point_response { uint64_t revision; }; struct limine_entry_point_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_entry_point_response *) response; LIMINE_PTR(limine_entry_point) entry; }; /* Executable File */ #define LIMINE_EXECUTABLE_FILE_REQUEST_ID { LIMINE_COMMON_MAGIC, 0xad97e90e83f1ed67, 0x31eb5d1c5ff23b69 } struct limine_executable_file_response { uint64_t revision; LIMINE_PTR(struct limine_file *) executable_file; }; struct limine_executable_file_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_executable_file_response *) response; }; /* Module */ #define LIMINE_MODULE_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x3e7e279702be32af, 0xca1c4f3bd1280cee } #define LIMINE_INTERNAL_MODULE_REQUIRED (1 << 0) #define LIMINE_INTERNAL_MODULE_COMPRESSED (1 << 1) struct limine_internal_module { LIMINE_PTR(const char *) path; LIMINE_PTR(const char *) string; uint64_t flags; }; struct limine_module_response { uint64_t revision; uint64_t module_count; LIMINE_PTR(struct limine_file **) modules; }; struct limine_module_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_module_response *) response; /* Request revision 1 */ uint64_t internal_module_count; LIMINE_PTR(struct limine_internal_module **) internal_modules; }; /* RSDP */ #define LIMINE_RSDP_REQUEST_ID { LIMINE_COMMON_MAGIC, 0xc5e77b6b397e7b43, 0x27637845accdcf3c } struct limine_rsdp_response { uint64_t revision; LIMINE_PTR(void *) address; }; struct limine_rsdp_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_rsdp_response *) response; }; /* SMBIOS */ #define LIMINE_SMBIOS_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x9e9046f11e095391, 0xaa4a520fefbde5ee } struct limine_smbios_response { uint64_t revision; uint64_t entry_32; uint64_t entry_64; }; struct limine_smbios_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_smbios_response *) response; }; /* EFI system table */ #define LIMINE_EFI_SYSTEM_TABLE_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x5ceba5163eaaf6d6, 0x0a6981610cf65fcc } struct limine_efi_system_table_response { uint64_t revision; uint64_t address; }; struct limine_efi_system_table_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_efi_system_table_response *) response; }; /* EFI memory map */ #define LIMINE_EFI_MEMMAP_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x7df62a431d6872d5, 0xa4fcdfb3e57306c8 } struct limine_efi_memmap_response { uint64_t revision; LIMINE_PTR(void *) memmap; uint64_t memmap_size; uint64_t desc_size; uint64_t desc_version; }; struct limine_efi_memmap_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_efi_memmap_response *) response; }; /* Date at boot */ #define LIMINE_DATE_AT_BOOT_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x502746e184c088aa, 0xfbc5ec83e6327893 } struct limine_date_at_boot_response { uint64_t revision; int64_t timestamp; }; struct limine_date_at_boot_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_date_at_boot_response *) response; }; /* Executable address */ #define LIMINE_EXECUTABLE_ADDRESS_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x71ba76863cc55f63, 0xb2644a48c516a487 } struct limine_executable_address_response { uint64_t revision; uint64_t physical_base; uint64_t virtual_base; }; struct limine_executable_address_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_executable_address_response *) response; }; /* Device Tree Blob */ #define LIMINE_DTB_REQUEST_ID { LIMINE_COMMON_MAGIC, 0xb40ddb48fb54bac7, 0x545081493f81ffb7 } struct limine_dtb_response { uint64_t revision; LIMINE_PTR(void *) dtb_ptr; }; struct limine_dtb_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_dtb_response *) response; }; /* RISC-V Boot Hart ID */ #define LIMINE_RISCV_BSP_HARTID_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x1369359f025525f9, 0x2ff2a56178391bb6 } struct limine_riscv_bsp_hartid_response { uint64_t revision; uint64_t bsp_hartid; }; struct limine_riscv_bsp_hartid_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_riscv_bsp_hartid_response *) response; }; /* Bootloader Performance */ #define LIMINE_BOOTLOADER_PERFORMANCE_REQUEST_ID { LIMINE_COMMON_MAGIC, 0x6b50ad9bf36d13ad, 0xdc4c7e88fc759e17 } struct limine_bootloader_performance_response { uint64_t revision; uint64_t reset_usec; uint64_t init_usec; uint64_t exec_usec; }; struct limine_bootloader_performance_request { uint64_t id[4]; uint64_t revision; LIMINE_PTR(struct limine_bootloader_performance_response *) response; }; #ifdef __cplusplus } #endif #endif