mirror of
https://github.com/topjohnwu/Magisk.git
synced 2024-12-18 05:58:30 +00:00
462 lines
12 KiB
C++
462 lines
12 KiB
C++
#include <stdlib.h>
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#include <unistd.h>
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#include <fcntl.h>
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#include <libfdt.h>
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#include <sys/mman.h>
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#include <mincrypt/sha.h>
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#include <mincrypt/sha256.h>
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#include "bootimg.h"
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#include "magiskboot.h"
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#include "utils.h"
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#include "logging.h"
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static void dump(void *buf, size_t size, const char *filename) {
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if (size == 0)
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return;
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int fd = creat(filename, 0644);
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xwrite(fd, buf, size);
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close(fd);
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}
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static size_t restore(const char *filename, int fd) {
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int ifd = xopen(filename, O_RDONLY);
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size_t size = lseek(ifd, 0, SEEK_END);
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lseek(ifd, 0, SEEK_SET);
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xsendfile(fd, ifd, NULL, size);
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close(ifd);
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return size;
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}
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static void restore_buf(int fd, const void *buf, size_t size) {
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xwrite(fd, buf, size);
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}
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boot_img::~boot_img() {
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munmap(map_addr, map_size);
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delete hdr;
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delete k_hdr;
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delete r_hdr;
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delete b_hdr;
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}
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#define CHROMEOS_RET 2
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#define ELF32_RET 3
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#define ELF64_RET 4
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#define pos_align() pos = do_align(pos, page_size())
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int boot_img::parse_image(const char * image) {
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mmap_ro(image, (void **) &map_addr, &map_size);
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// Parse image
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fprintf(stderr, "Parsing boot image: [%s]\n", image);
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for (uint8_t *head = map_addr; head < map_addr + map_size; ++head) {
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size_t pos = 0;
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switch (check_fmt(head, map_size)) {
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case CHROMEOS:
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// The caller should know it's chromeos, as it needs additional signing
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flags |= CHROMEOS_FLAG;
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break;
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case DHTB:
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flags |= DHTB_FLAG;
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flags |= SEANDROID_FLAG;
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fprintf(stderr, "DHTB_HDR\n");
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break;
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case ELF32:
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exit(ELF32_RET);
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case ELF64:
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exit(ELF64_RET);
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case BLOB:
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flags |= BLOB_FLAG;
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fprintf(stderr, "TEGRA_BLOB\n");
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b_hdr = new blob_hdr();
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memcpy(b_hdr, head, sizeof(blob_hdr));
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break;
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case AOSP:
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// Read the header
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if (((boot_img_hdr*) head)->page_size >= 0x02000000) {
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flags |= PXA_FLAG;
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fprintf(stderr, "PXA_BOOT_HDR\n");
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hdr = new boot_img_hdr_pxa();
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memcpy(hdr, head, sizeof(boot_img_hdr_pxa));
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} else if (memcmp(((boot_img_hdr*) head)->cmdline, NOOKHD_MAGIC, 12) == 0
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|| memcmp(((boot_img_hdr*) head)->cmdline, NOOKHD_NEW_MAGIC, 26) == 0) {
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flags |= NOOKHD_FLAG;
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fprintf(stderr, "NOOKHD_GREEN_LOADER\n");
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head += NOOKHD_PRE_HEADER_SZ - 1;
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continue;
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} else if (memcmp(((boot_img_hdr*) head)->name, ACCLAIM_MAGIC, 10) == 0) {
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flags |= ACCLAIM_FLAG;
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fprintf(stderr, "ACCLAIM_BAUWKSBOOT\n");
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head += ACCLAIM_PRE_HEADER_SZ - 1;
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continue;
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} else {
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hdr = new boot_img_hdr();
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memcpy(hdr, head, sizeof(boot_img_hdr));
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}
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pos += page_size();
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flags |= id()[SHA_DIGEST_SIZE] ? SHA256_FLAG : 0;
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print_hdr();
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kernel = head + pos;
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pos += hdr->kernel_size;
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pos_align();
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ramdisk = head + pos;
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pos += hdr->ramdisk_size;
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pos_align();
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second = head + pos;
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pos += hdr->second_size;
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pos_align();
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extra = head + pos;
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pos += extra_size();
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pos_align();
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recov_dtbo = head + pos;
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pos += recovery_dtbo_size();
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pos_align();
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if (pos < map_size) {
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tail = head + pos;
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tail_size = map_size - (tail - map_addr);
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}
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// Check tail info, currently only for LG Bump and Samsung SEANDROIDENFORCE
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if (tail_size >= 16 && memcmp(tail, SEANDROID_MAGIC, 16) == 0) {
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flags |= SEANDROID_FLAG;
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} else if (tail_size >= 16 && memcmp(tail, LG_BUMP_MAGIC, 16) == 0) {
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flags |= LG_BUMP_FLAG;
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}
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find_dtb();
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k_fmt = check_fmt(kernel, hdr->kernel_size);
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r_fmt = check_fmt(ramdisk, hdr->ramdisk_size);
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// Check MTK
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if (k_fmt == MTK) {
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fprintf(stderr, "MTK_KERNEL_HDR\n");
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flags |= MTK_KERNEL;
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k_hdr = new mtk_hdr();
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memcpy(k_hdr, kernel, sizeof(mtk_hdr));
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fprintf(stderr, "KERNEL [%u]\n", k_hdr->size);
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fprintf(stderr, "NAME [%s]\n", k_hdr->name);
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kernel += 512;
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hdr->kernel_size -= 512;
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k_fmt = check_fmt(kernel, hdr->kernel_size);
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}
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if (r_fmt == MTK) {
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fprintf(stderr, "MTK_RAMDISK_HDR\n");
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flags |= MTK_RAMDISK;
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r_hdr = new mtk_hdr();
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memcpy(r_hdr, ramdisk, sizeof(mtk_hdr));
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fprintf(stderr, "RAMDISK [%u]\n", r_hdr->size);
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fprintf(stderr, "NAME [%s]\n", r_hdr->name);
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ramdisk += 512;
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hdr->ramdisk_size -= 512;
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r_fmt = check_fmt(ramdisk, hdr->ramdisk_size);
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}
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char fmt[16];
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get_fmt_name(k_fmt, fmt);
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fprintf(stderr, "KERNEL_FMT [%s]\n", fmt);
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get_fmt_name(r_fmt, fmt);
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fprintf(stderr, "RAMDISK_FMT [%s]\n", fmt);
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return flags & CHROMEOS_FLAG ? CHROMEOS_RET : 0;
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default:
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break;
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}
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}
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LOGE("No boot image magic found!\n");
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exit(1);
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}
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void boot_img::find_dtb() {
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for (uint32_t i = 0; i < hdr->kernel_size; ++i) {
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if (memcmp(kernel + i, DTB_MAGIC, 4))
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continue;
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// Check that fdt_header.totalsize does not overflow kernel image size
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uint32_t dt_sz = fdt32_to_cpu(*(uint32_t *)(kernel + i + 4));
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if (dt_sz > hdr->kernel_size - i) {
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fprintf(stderr, "Invalid DTB detection at 0x%x: size (%u) > remaining (%u)\n",
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i, dt_sz, hdr->kernel_size - i);
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continue;
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}
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// Check that fdt_header.off_dt_struct does not overflow kernel image size
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uint32_t dt_struct_offset = fdt32_to_cpu(*(uint32_t *)(kernel + i + 8));
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if (dt_struct_offset > hdr->kernel_size - i) {
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fprintf(stderr, "Invalid DTB detection at 0x%x: "
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"struct offset (%u) > remaining (%u)\n",
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i, dt_struct_offset, hdr->kernel_size - i);
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continue;
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}
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// Check that fdt_node_header.tag of first node is FDT_BEGIN_NODE
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uint32_t dt_begin_node = fdt32_to_cpu(*(uint32_t *)(kernel + i + dt_struct_offset));
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if (dt_begin_node != FDT_BEGIN_NODE) {
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fprintf(stderr, "Invalid DTB detection at 0x%x: "
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"header tag of first node != FDT_BEGIN_NODE\n", i);
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continue;
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}
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dtb = kernel + i;
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dt_size = hdr->kernel_size - i;
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hdr->kernel_size = i;
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fprintf(stderr, "DTB [%u]\n", dt_size);
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break;
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}
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}
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void boot_img::print_hdr() {
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fprintf(stderr, "HEADER_VER [%u]\n", header_version());
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fprintf(stderr, "KERNEL_SZ [%u]\n", hdr->kernel_size);
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fprintf(stderr, "RAMDISK_SZ [%u]\n", hdr->ramdisk_size);
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fprintf(stderr, "SECOND_SZ [%u]\n", hdr->second_size);
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fprintf(stderr, "EXTRA_SZ [%u]\n", extra_size());
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fprintf(stderr, "RECOV_DTBO_SZ [%u]\n", recovery_dtbo_size());
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uint32_t ver = os_version();
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if (ver) {
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int a,b,c,y,m = 0;
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int version, patch_level;
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version = ver >> 11;
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patch_level = ver & 0x7ff;
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a = (version >> 14) & 0x7f;
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b = (version >> 7) & 0x7f;
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c = version & 0x7f;
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fprintf(stderr, "OS_VERSION [%d.%d.%d]\n", a, b, c);
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y = (patch_level >> 4) + 2000;
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m = patch_level & 0xf;
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fprintf(stderr, "PATCH_LEVEL [%d-%02d]\n", y, m);
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}
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fprintf(stderr, "PAGESIZE [%u]\n", page_size());
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fprintf(stderr, "NAME [%s]\n", name());
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fprintf(stderr, "CMDLINE [%.512s%.1024s]\n", cmdline(), extra_cmdline());
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fprintf(stderr, "CHECKSUM [");
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for (int i = 0; id()[i]; ++i)
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fprintf(stderr, "%02x", id()[i]);
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fprintf(stderr, "]\n");
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}
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int unpack(const char *image) {
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boot_img boot {};
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int ret = boot.parse_image(image);
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int fd;
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// Dump kernel
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if (COMPRESSED(boot.k_fmt)) {
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fd = creat(KERNEL_FILE, 0644);
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decompress(boot.k_fmt, fd, boot.kernel, boot.hdr->kernel_size);
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close(fd);
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} else {
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dump(boot.kernel, boot.hdr->kernel_size, KERNEL_FILE);
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}
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// Dump dtb
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dump(boot.dtb, boot.dt_size, DTB_FILE);
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// Dump ramdisk
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if (COMPRESSED(boot.r_fmt)) {
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fd = creat(RAMDISK_FILE, 0644);
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decompress(boot.r_fmt, fd, boot.ramdisk, boot.hdr->ramdisk_size);
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close(fd);
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} else {
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dump(boot.ramdisk, boot.hdr->ramdisk_size, RAMDISK_FILE);
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}
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// Dump second
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dump(boot.second, boot.hdr->second_size, SECOND_FILE);
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// Dump extra
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dump(boot.extra, boot.extra_size(), EXTRA_FILE);
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// Dump recovery_dtbo
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dump(boot.recov_dtbo, boot.recovery_dtbo_size(), RECV_DTBO_FILE);
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return ret;
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}
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#define file_align() write_zero(fd, align_off(lseek(fd, 0, SEEK_CUR) - header_off, boot.page_size()))
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void repack(const char* orig_image, const char* out_image) {
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boot_img boot {};
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off_t header_off, kernel_off, ramdisk_off, second_off, extra_off;
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// Parse original image
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boot.parse_image(orig_image);
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// Reset sizes
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boot.hdr->kernel_size = 0;
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boot.hdr->ramdisk_size = 0;
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boot.hdr->second_size = 0;
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boot.dt_size = 0;
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fprintf(stderr, "Repack to boot image: [%s]\n", out_image);
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// Create new image
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int fd = creat(out_image, 0644);
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if (boot.flags & DHTB_FLAG) {
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// Skip DHTB header
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write_zero(fd, 512);
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} else if (boot.flags & BLOB_FLAG) {
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// Skip blob header
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write_zero(fd, sizeof(blob_hdr));
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} else if (boot.flags & NOOKHD_FLAG) {
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restore_buf(fd, boot.map_addr, NOOKHD_PRE_HEADER_SZ);
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} else if (boot.flags & ACCLAIM_FLAG) {
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restore_buf(fd, boot.map_addr, ACCLAIM_PRE_HEADER_SZ);
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}
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// Skip a page for header
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header_off = lseek(fd, 0, SEEK_CUR);
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write_zero(fd, boot.page_size());
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// kernel
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kernel_off = lseek(fd, 0, SEEK_CUR);
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if (boot.flags & MTK_KERNEL) {
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// Skip MTK header
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write_zero(fd, 512);
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}
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if (access(KERNEL_FILE, R_OK) == 0) {
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if (COMPRESSED(boot.k_fmt)) {
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size_t raw_size;
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void *kernel_raw;
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mmap_ro(KERNEL_FILE, &kernel_raw, &raw_size);
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boot.hdr->kernel_size = compress(boot.k_fmt, fd, kernel_raw, raw_size);
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munmap(kernel_raw, raw_size);
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} else {
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boot.hdr->kernel_size = restore(KERNEL_FILE, fd);
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}
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}
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// dtb
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if (access(DTB_FILE, R_OK) == 0)
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boot.hdr->kernel_size += restore(DTB_FILE, fd);
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file_align();
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// ramdisk
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ramdisk_off = lseek(fd, 0, SEEK_CUR);
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if (boot.flags & MTK_RAMDISK) {
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// Skip MTK header
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write_zero(fd, 512);
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}
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if (access(RAMDISK_FILE, R_OK) == 0) {
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if (COMPRESSED(boot.r_fmt)) {
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size_t cpio_size;
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void *cpio;
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mmap_ro(RAMDISK_FILE, &cpio, &cpio_size);
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boot.hdr->ramdisk_size = compress(boot.r_fmt, fd, cpio, cpio_size);
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munmap(cpio, cpio_size);
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} else {
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boot.hdr->ramdisk_size = restore(RAMDISK_FILE, fd);
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}
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file_align();
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}
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// second
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second_off = lseek(fd, 0, SEEK_CUR);
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if (access(SECOND_FILE, R_OK) == 0) {
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boot.hdr->second_size = restore(SECOND_FILE, fd);
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file_align();
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}
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// extra
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extra_off = lseek(fd, 0, SEEK_CUR);
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if (access(EXTRA_FILE, R_OK) == 0) {
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boot.extra_size(restore(EXTRA_FILE, fd));
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file_align();
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}
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// recovery_dtbo
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if (access(RECV_DTBO_FILE, R_OK) == 0) {
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boot.recovery_dtbo_offset(lseek(fd, 0, SEEK_CUR));
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boot.recovery_dtbo_size(restore(RECV_DTBO_FILE, fd));
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file_align();
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}
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// Append tail info
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if (boot.flags & SEANDROID_FLAG) {
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restore_buf(fd, SEANDROID_MAGIC "\xFF\xFF\xFF\xFF", 20);
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}
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if (boot.flags & LG_BUMP_FLAG) {
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restore_buf(fd, LG_BUMP_MAGIC, 16);
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}
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close(fd);
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// Map output image as rw
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munmap(boot.map_addr, boot.map_size);
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mmap_rw(out_image, (void **) &boot.map_addr, &boot.map_size);
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// MTK headers
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if (boot.flags & MTK_KERNEL) {
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boot.k_hdr->size = boot.hdr->kernel_size;
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boot.hdr->kernel_size += 512;
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memcpy(boot.map_addr + kernel_off, boot.k_hdr, sizeof(mtk_hdr));
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}
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if (boot.flags & MTK_RAMDISK) {
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boot.r_hdr->size = boot.hdr->ramdisk_size;
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boot.hdr->ramdisk_size += 512;
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memcpy(boot.map_addr + ramdisk_off, boot.r_hdr, sizeof(mtk_hdr));
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}
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// Update checksum
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HASH_CTX ctx;
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(boot.flags & SHA256_FLAG) ? SHA256_init(&ctx) : SHA_init(&ctx);
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uint32_t size = boot.hdr->kernel_size;
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HASH_update(&ctx, boot.map_addr + kernel_off, size);
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HASH_update(&ctx, &size, sizeof(size));
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size = boot.hdr->ramdisk_size;
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HASH_update(&ctx, boot.map_addr + ramdisk_off, size);
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HASH_update(&ctx, &size, sizeof(size));
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size = boot.hdr->second_size;
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HASH_update(&ctx, boot.map_addr + second_off, size);
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HASH_update(&ctx, &size, sizeof(size));
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size = boot.extra_size();
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if (size) {
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HASH_update(&ctx, boot.map_addr + extra_off, size);
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HASH_update(&ctx, &size, sizeof(size));
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}
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if (boot.header_version()) {
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size = boot.recovery_dtbo_size();
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HASH_update(&ctx, boot.map_addr + boot.recovery_dtbo_offset(), size);
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HASH_update(&ctx, &size, sizeof(size));
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}
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memset(boot.id(), 0, 32);
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memcpy(boot.id(), HASH_final(&ctx),
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(boot.flags & SHA256_FLAG) ? SHA256_DIGEST_SIZE : SHA_DIGEST_SIZE);
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// Print new image info
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boot.print_hdr();
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// Try to fix the header
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if (boot.header_version() && boot.header_size() == 0)
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boot.header_size(sizeof(boot_img_hdr));
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// Main header
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memcpy(boot.map_addr + header_off, boot.hdr, boot.hdr_size());
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if (boot.flags & DHTB_FLAG) {
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// DHTB header
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dhtb_hdr *hdr = reinterpret_cast<dhtb_hdr *>(boot.map_addr);
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memcpy(hdr, DHTB_MAGIC, 8);
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hdr->size = boot.map_size - 512;
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SHA256_hash(boot.map_addr + 512, hdr->size, hdr->checksum);
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} else if (boot.flags & BLOB_FLAG) {
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// Blob headers
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boot.b_hdr->size = boot.map_size - sizeof(blob_hdr);
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memcpy(boot.map_addr, boot.b_hdr, sizeof(blob_hdr));
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}
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}
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