#include "../includes/woody.h" int elf_magic_numbers(char *str) { return (!ft_strncmp(str, ELFMAG, SELFMAG)); } int save_elf(char *path, char *file, unsigned long int size) { int fd = open(path, O_CREAT | O_WRONLY | O_TRUNC, 0755); if (fd == -1) { ft_printf("Error: Failed to create new file \'%s\'\n", path); return EXIT_FAILURE; } if (write(fd, file, size) == -1) { close(fd); ft_printf("Error: Failed to write new file \'%s\'\n", path); return EXIT_FAILURE; } if (close(fd) == -1) { ft_printf("Error: Failed to close new file \'%s\'\n", path); return EXIT_FAILURE; } return EXIT_SUCCESS; } int get_load_segment(t_elf_content *woody, int start, bool executable) { for (int i = start; i < woody->Ehdr->e_phnum; i++) { if (woody->Phdr[i].p_type == PT_LOAD) { if (executable) { if (woody->Phdr[i].p_flags & PF_X) return i; } else return i; } } return -1; } void offset_sections(t_elf_content *woody, unsigned int from, unsigned int offset_ammount) { for (int i = 0; i < woody->Ehdr->e_phnum; i++) { if (woody->Phdr[i].p_offset > from) woody->Phdr[i].p_offset += offset_ammount; } for (int i = 0; i < woody->Ehdr->e_shnum; i++) { if (woody->Shdr[i].sh_offset > from) woody->Shdr[i].sh_offset += offset_ammount; } } size_t create_codecave(t_elf_content *woody, Elf64_Phdr *load_segment, t_payload *payload) { const unsigned int page_size = 4096; // getpagesize(); not authorized unsigned int padding_size = ((payload->len / page_size) + 1) * page_size; unsigned int codecave_start = load_segment->p_offset + load_segment->p_filesz; offset_sections(woody, codecave_start, padding_size); char *new_woody = malloc(woody->file_size + padding_size); if (!new_woody) return 0; ft_memcpy(new_woody, woody->file, codecave_start); ft_bzero(new_woody + codecave_start, padding_size); ft_memcpy(new_woody + codecave_start + padding_size, woody->file + codecave_start, woody->file_size - codecave_start); munmap(woody->file, woody->file_size); woody->file = new_woody; woody->file_size += padding_size; woody->Ehdr = (Elf64_Ehdr *)new_woody; woody->Phdr = (Elf64_Phdr *)fetch(woody->file, woody->file_size, woody->Ehdr->e_phoff, sizeof(Elf64_Phdr)); woody->Shdr = (Elf64_Shdr *)fetch(woody->file, woody->file_size, woody->Ehdr->e_shoff, sizeof(Elf64_Shdr)); return codecave_start; } t_payload *get_payload() { t_payload *payload = malloc(sizeof(t_payload)); if (!payload) return NULL; char buffer[1024]; int fd = open("payload", O_RDONLY); if (fd == -1) { perror("error opening payload"); free(payload); exit(1); } payload->len = read(fd, buffer, 1024); payload->payload = malloc(sizeof(char) * payload->len); ft_memcpy(payload->payload, buffer, payload->len); return payload; } int insert_payload(t_elf_content *woody, t_payload *payload, size_t payload_position) { char *ptr_jmp = ft_strnstr_nullterminated(payload->payload, JUMP, payload->len); char *ptr_woody = ft_strnstr_nullterminated(payload->payload, WOODY, payload->len); char *ptr_text_section = ft_strnstr_nullterminated(payload->payload, TEXT_OFFSET, payload->len); char *ptr_section_size = ft_strnstr_nullterminated(payload->payload, SECTION_SIZE, payload->len); if (ptr_jmp && ptr_woody && ptr_text_section && ptr_section_size) { int32_t woody_index = ptr_woody - payload->payload; int32_t jmp_index = ptr_jmp - payload->payload; int32_t jump_value = (payload_position - woody->Ehdr->e_entry + jmp_index - 1) * -1; ft_memcpy(&payload->payload[jmp_index + 1], &jump_value, sizeof(jump_value)); int64_t text_index = ptr_text_section - payload->payload; int64_t text_value = payload_position - woody->Ehdr->e_entry + woody_index; ft_memcpy(&payload->payload[text_index], &text_value, sizeof(text_value)); int64_t section_index = ptr_section_size - payload->payload; int64_t section_value = woody->text_section->sh_size; ft_memcpy(&payload->payload[section_index], §ion_value, sizeof(section_value)); ft_memcpy(woody->file + payload_position, payload->payload, payload->len); printf("jmp_index : %d (%x)\n", jmp_index, jmp_index); printf("woody index :%d (%x)\n", woody_index, woody_index); printf("jmp_index++ : %ld (%lx)\n", jmp_index + sizeof(JUMP) + sizeof(jump_value), jmp_index + sizeof(JUMP) + sizeof(jump_value) - 1); printf("text_value : %ld (%lx)\n", text_value, text_value); printf("Old entry : %ld (%lx)\n", woody->Ehdr->e_entry, woody->Ehdr->e_entry); printf("Code cave start = %ld (%lx)\n", payload_position, payload_position); printf("Payload size = %ld (%lx)\n", payload->len, payload->len); printf("Backwar d offset = %d (%x)(%x)\n", jump_value, jump_value, -jump_value); return EXIT_SUCCESS; } return EXIT_FAILURE; } void inject(t_elf_content *woody) { t_payload *payload = get_payload(); int i = get_load_segment(woody, 0, true); int j = get_load_segment(woody, i + 1, false); size_t code_cave_size = woody->Phdr[j].p_offset - (woody->Phdr[i].p_offset + woody->Phdr[i].p_filesz); size_t payload_position; printf("load position = : %ld (%lx)\n", woody->Phdr[i].p_offset, woody->Phdr[i].p_offset); printf("load size = : %ld (%lx)\n", woody->Phdr[i].p_filesz, woody->Phdr[i].p_filesz); if (code_cave_size > payload->len) // inverse here to test the other technique { payload_position = woody->Phdr[i].p_offset + woody->Phdr[i].p_memsz; printf("Code_cave_size = %ld (%lx)\n", code_cave_size, code_cave_size); } else { payload_position = create_codecave(woody, &woody->Phdr[i], payload); } insert_payload(woody, payload, payload_position); woody->Ehdr->e_entry = payload_position; woody->Phdr[i].p_filesz += payload->len; woody->Phdr[i].p_memsz += payload->len; woody->Phdr[i].p_flags = PF_X | PF_W | PF_R; woody->text_section->sh_size += payload->len; printf("New entry = %ld (%lx)\n", woody->Ehdr->e_entry, woody->Ehdr->e_entry); } int is_special_section_indice(uint16_t section_index) { return (section_index == SHN_LOPROC || section_index == SHN_BEFORE || section_index == SHN_AFTER || section_index == SHN_HIPROC || section_index == SHN_LOOS || section_index == SHN_HIOS || section_index == SHN_ABS || section_index == SHN_COMMON || section_index == SHN_XINDEX || section_index == SHN_HIRESERVE); } int get_elf_sections(t_elf_content *woody) { woody->Ehdr = (Elf64_Ehdr *)fetch(woody->file, woody->file_size, 0, sizeof(Elf64_Ehdr)); if (!woody->Ehdr || !elf_magic_numbers(woody->file) || woody->Ehdr->e_ident[EI_CLASS] != ELFCLASS64) { ft_printf("Error: \'%s\' is not a valid 64-bit ELF file\n", woody->file_path); return EXIT_FAILURE; } woody->Phdr = (Elf64_Phdr *)fetch(woody->file, woody->file_size, woody->Ehdr->e_phoff, sizeof(Elf64_Phdr)); woody->Shdr = (Elf64_Shdr *)fetch(woody->file, woody->file_size, woody->Ehdr->e_shoff, sizeof(Elf64_Shdr)); if (!woody->Shdr|| !fetch(woody->file, woody->file_size, woody->Ehdr->e_shoff, woody->Ehdr->e_shnum * sizeof(Elf64_Shdr))) return EXIT_FAILURE; if (!fetch(woody->file, woody->file_size, woody->Ehdr->e_shoff + (woody->Ehdr->e_shstrndx * sizeof(Elf64_Shdr)), sizeof(Elf64_Shdr))) { return EXIT_FAILURE; } char *Sshstrtab = (char *)fetch(woody->file, woody->file_size, woody->Shdr[woody->Ehdr->e_shstrndx].sh_offset, 0); if (Sshstrtab == NULL) { return EXIT_FAILURE; } for (int j = 0; j < woody->Ehdr->e_shnum;j++) { if (woody->Shdr[j].sh_name > woody->Shdr[woody->Ehdr->e_shstrndx].sh_size) return EXIT_FAILURE; if (woody->Shdr[j].sh_type == SHT_PROGBITS && woody->Shdr[j].sh_flags & SHF_EXECINSTR && woody->Shdr[j].sh_flags & SHF_ALLOC && Sshstrtab + woody->Shdr[j].sh_name < (char *)woody->file + woody->file_size && !ft_strncmp(".text\0", Sshstrtab + woody->Shdr[j].sh_name, 6)) { woody->text_section = &woody->Shdr[j]; break; } } return EXIT_SUCCESS; } int prepare_injection(t_elf_content *woody) { int elf_statut = get_elf_sections(woody); if (elf_statut) return elf_statut; inject(woody); // encrypt(woody->file, woody->text_section->sh_offset, woody->text_section->sh_size); char *woody_file; if (!(woody_file = malloc(woody->file_size))) return ft_put_error("Allocation error"); ft_memcpy(woody_file, woody->file, woody->file_size); munmap(woody_file, woody->file_size); save_elf("woody", woody_file, woody->file_size); free(woody_file); return EXIT_SUCCESS; }