/* * Copyright (C) 2020 Intel Corporation. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef BOOT_H_ #define BOOT_H_ #include #ifdef CONFIG_MULTIBOOT2 #include #endif #include #include #define MAX_BOOTARGS_SIZE 2048U #define MAX_MODULE_COUNT 4U /* extended flags for acrn multiboot info from multiboot2 */ #define MULTIBOOT_INFO_HAS_EFI_MMAP 0x00010000U #define MULTIBOOT_INFO_HAS_EFI64 0x00020000U struct acrn_multiboot_info { uint32_t mi_flags; /* the flags is back-compatible with multiboot1 */ char *mi_cmdline; char *mi_loader_name; uint32_t mi_mods_count; struct multiboot_module mi_mods[MAX_MODULE_COUNT]; uint32_t mi_drives_length; uint32_t mi_drives_addr; uint32_t mi_mmap_entries; struct multiboot_mmap mi_mmap_entry[E820_MAX_ENTRIES]; void *mi_acpi_rsdp; struct efi_info mi_efi_info; }; /* boot_regs store the multiboot info magic and address */ extern uint32_t boot_regs[2]; extern char *efiloader_sig; static inline bool boot_from_multiboot1(void) { return ((boot_regs[0] == MULTIBOOT_INFO_MAGIC) && (boot_regs[1] != 0U)); } #ifdef CONFIG_MULTIBOOT2 static inline bool boot_from_multiboot2(void) { /* * Multiboot spec states that the Multiboot information structure may be placed * anywhere in memory by the boot loader. * * Seems both SBL and GRUB won't place multiboot1 MBI structure at 0 address, * but GRUB could place Multiboot2 MBI structure at 0 address until commit * 0f3f5b7c13fa9b67 ("multiboot2: Set min address for mbi allocation to 0x1000") * which dates on Dec 26 2019. */ return (boot_regs[0] == MULTIBOOT2_INFO_MAGIC); } int32_t multiboot2_to_acrn_mbi(struct acrn_multiboot_info *mbi, void *mb2_info); #endif struct acrn_multiboot_info *get_multiboot_info(void); int32_t sanitize_multiboot_info(void); void parse_hv_cmdline(void); #endif /* BOOT_H_ */