#ifndef __LIB__ELF_H__ #define __LIB__ELF_H__ #include #include #include #define FIXED_HIGHER_HALF_OFFSET_64 ((uint64_t)0xffffffff80000000) #define ELF_PF_X 1 #define ELF_PF_W 2 #define ELF_PF_R 4 struct elf_range { uint64_t base; uint64_t length; uint64_t permissions; }; struct elf_section_hdr_info { uint32_t section_entry_size; uint32_t str_section_idx; uint32_t num; uint32_t section_offset; }; int elf_bits(uint8_t *elf); struct elf_section_hdr_info elf64_section_hdr_info(uint8_t *elf); struct elf_section_hdr_info elf32_section_hdr_info(uint8_t *elf); bool elf64_load_section(uint8_t *elf, void *buffer, const char *name, size_t limit, uint64_t slide); bool elf64_load(uint8_t *elf, uint64_t *entry_point, uint64_t *_slide, uint32_t alloc_type, bool kaslr, struct elf_range **ranges, uint64_t *ranges_count, uint64_t *physical_base, uint64_t *virtual_base, uint64_t *image_size, bool *is_reloc); bool elf32_load_elsewhere(uint8_t *elf, uint64_t *entry_point, struct elsewhere_range **ranges, uint64_t *ranges_count); bool elf64_load_elsewhere(uint8_t *elf, uint64_t *entry_point, struct elsewhere_range **ranges, uint64_t *ranges_count); struct elf64_hdr { uint8_t ident[16]; uint16_t type; uint16_t machine; uint32_t version; uint64_t entry; uint64_t phoff; uint64_t shoff; uint32_t flags; uint16_t hdr_size; uint16_t phdr_size; uint16_t ph_num; uint16_t shdr_size; uint16_t sh_num; uint16_t shstrndx; }; struct elf64_shdr { uint32_t sh_name; uint32_t sh_type; uint64_t sh_flags; uint64_t sh_addr; uint64_t sh_offset; uint64_t sh_size; uint32_t sh_link; uint32_t sh_info; uint64_t sh_addralign; uint64_t sh_entsize; }; struct elf64_sym { uint32_t st_name; uint8_t st_info; uint8_t st_other; uint16_t st_shndx; uint64_t st_value; uint64_t st_size; }; #endif