#include "bootimg.h" #include "elf.h" #include "magiskboot.h" unsigned char *kernel, *ramdisk, *second, *dtb, *extra; boot_img_hdr hdr; int mtk_kernel = 0, mtk_ramdisk = 0; file_t boot_type, ramdisk_type, dtb_type; static void check_headers() { // Check ramdisk compression type ramdisk_type = check_type(ramdisk); // Check MTK if (check_type(kernel) == MTK) { printf("MTK header found in kernel\n"); mtk_kernel = 1; } if (check_type(ramdisk) == MTK) { printf("MTK header found in ramdisk\n"); mtk_ramdisk = 1; } // Check dtb if ELF boot if (boot_type == ELF && hdr.dt_size) { dtb_type = check_type(dtb); } // Print info print_info(); } static void elf_header_check(void *elf, int is64) { size_t e_size, mach, ver, p_size, p_num, s_size, s_num; size_t r_e_size, r_p_size, r_s_size; if (is64) { e_size = ((elf64_ehdr *) elf)->e_ehsize; mach = ((elf64_ehdr *) elf)->e_machine; ver = ((elf64_ehdr *) elf)->e_version; p_size = ((elf64_ehdr *) elf)->e_phentsize; p_num = ((elf64_ehdr *) elf)->e_phnum; s_size = ((elf64_ehdr *) elf)->e_shentsize; s_num = ((elf64_ehdr *) elf)->e_shnum; r_e_size = sizeof(elf64_ehdr); r_p_size = sizeof(elf64_phdr); r_s_size = sizeof(elf64_shdr); } else { e_size = ((elf32_ehdr *) elf)->e_ehsize; mach = ((elf32_ehdr *) elf)->e_machine; ver = ((elf32_ehdr *) elf)->e_version; p_size = ((elf32_ehdr *) elf)->e_phentsize; p_num = ((elf32_ehdr *) elf)->e_phnum; s_size = ((elf32_ehdr *) elf)->e_shentsize; s_num = ((elf32_ehdr *) elf)->e_shnum; r_e_size = sizeof(elf32_ehdr); r_p_size = sizeof(elf32_phdr); r_s_size = sizeof(elf32_shdr); } if (e_size != r_e_size) error(1, "Header size not %d", r_e_size); if (mach != EM_ARM) error(1, "ELF machine is not ARM"); if (ver != 1) error(1, "Unknown ELF version"); if (p_size != r_p_size) error(1, "Program header size not %d", r_p_size); if (p_num < 2 || p_num > 4) error(1, "Unexpected number of elements: %d", p_num); if (s_num && s_size != r_s_size) error(1, "Section header size not %d", r_s_size); if (s_num > 1) error(1, "More than one section header"); } static void elf_set(int i, unsigned char *base, size_t size, size_t offset, size_t addr) { if (size <= 4096) { // Possible cmdline memset(hdr.cmdline, 0, BOOT_ARGS_SIZE); strncpy((char *) hdr.cmdline, (char *) (base + offset), BOOT_ARGS_SIZE); hdr.cmdline[strcspn((char*) hdr.cmdline, "\n")] = '\0'; return; } switch(i) { case 0: // kernel kernel = base + offset; hdr.kernel_size = size; hdr.kernel_addr = addr; break; case 1: // ramdisk ramdisk = base + offset; hdr.ramdisk_size = size; hdr.ramdisk_addr = addr; break; case 2: // dtb dtb = base + offset; hdr.dt_size = size; hdr.tags_addr = addr; break; } } static void parse_elf(unsigned char *base) { // Reset boot image header memset(&hdr, 0, sizeof(hdr)); // Hardcode header magic and pagesize memcpy(hdr.magic, BOOT_MAGIC, BOOT_MAGIC_SIZE); hdr.page_size = 4096; switch(base[EI_CLASS]) { case ELFCLASS32: { elf32_ehdr *elf32; elf32_phdr *ph32; elf32_shdr *sh32; printf("IMAGE [ELF32]\n"); elf32 = (elf32_ehdr *) base; elf_header_check(elf32, 0); ph32 = (elf32_phdr *) (base + elf32->e_phoff); sh32 = (elf32_shdr *) (base + elf32->e_shoff); for (int i = 0; i < elf32->e_phnum; ++i) { elf_set(i, base, ph32[i].p_filesz, ph32[i].p_offset, ph32[i].p_paddr); } if (elf32->e_shnum) { // cmdline memset(hdr.cmdline, 0, BOOT_ARGS_SIZE); strncpy((char *) hdr.cmdline, (char *) (base + sh32->s_offset + 8), BOOT_ARGS_SIZE); hdr.cmdline[strcspn((char*) hdr.cmdline, "\n")] = '\0'; } break; } case ELFCLASS64: { elf64_ehdr *elf64; elf64_phdr *ph64; elf64_shdr *sh64; printf("IMAGE [ELF64]\n"); elf64 = (elf64_ehdr *) base; elf_header_check(elf64, 1); ph64 = (elf64_phdr *) (base + elf64->e_phoff); sh64 = (elf64_shdr *) (base + elf64->e_shoff); for (int i = 0; i < elf64->e_phnum; ++i) { elf_set(i, base, ph64[i].p_filesz, ph64[i].p_offset, ph64[i].p_paddr); } if (elf64->e_shnum) { // cmdline memset(hdr.cmdline, 0, BOOT_ARGS_SIZE); strncpy((char *) hdr.cmdline, (char *) (base + sh64->s_offset + 8), BOOT_ARGS_SIZE); hdr.cmdline[strcspn((char*) hdr.cmdline, "\n")] = '\0'; } break; } default: error(1, "ELF format error!"); } check_headers(); } static void parse_aosp(unsigned char *base, size_t size) { printf("IMG [AOSP]\n"); size_t pos = 0; // Read the header memcpy(&hdr, base, sizeof(hdr)); pos += hdr.page_size; // Kernel position kernel = base + pos; pos += hdr.kernel_size; mem_align(&pos, hdr.page_size); // Ramdisk position ramdisk = base + pos; pos += hdr.ramdisk_size; mem_align(&pos, hdr.page_size); if (hdr.second_size) { // Second position second = base + pos; pos += hdr.second_size; mem_align(&pos, hdr.page_size); } if (hdr.dt_size) { // dtb position dtb = base + pos; pos += hdr.dt_size; mem_align(&pos, hdr.page_size); } if (pos < size) { extra = base + pos; } check_headers(); } void parse_img(unsigned char *orig, size_t size) { unsigned char *base, *end; for(base = orig, end = orig + size; base < end; base += 256, size -= 256) { switch (check_type(base)) { case CHROMEOS: boot_type = CHROMEOS; continue; case AOSP: // Don't override CHROMEOS if (boot_type != CHROMEOS) boot_type = AOSP; parse_aosp(base, size); return; case ELF: boot_type = ELF; parse_elf(base); return; default: continue; } } error(1, "No boot image magic found!"); }