Magisk/native/jni/boot/bootimg.cpp

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#include <functional>
#include <memory>
#include <libfdt.h>
#include <mincrypt/sha.h>
#include <mincrypt/sha256.h>
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#include <base.hpp>
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#include "bootimg.hpp"
#include "magiskboot.hpp"
#include "compress.hpp"
using namespace std;
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uint32_t dyn_img_hdr::j32 = 0;
uint64_t dyn_img_hdr::j64 = 0;
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#define PADDING 15
static void decompress(format_t type, int fd, const void *in, size_t size) {
auto ptr = get_decoder(type, make_unique<fd_stream>(fd));
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ptr->write(in, size, true);
}
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static off_t compress(format_t type, int fd, const void *in, size_t size) {
auto prev = lseek(fd, 0, SEEK_CUR);
{
auto strm = get_encoder(type, make_unique<fd_stream>(fd));
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strm->write(in, size, true);
}
auto now = lseek(fd, 0, SEEK_CUR);
return now - prev;
}
static void dump(void *buf, size_t size, const char *filename) {
if (size == 0)
return;
int fd = creat(filename, 0644);
xwrite(fd, buf, size);
close(fd);
}
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static size_t restore(int fd, const char *filename) {
int ifd = xopen(filename, O_RDONLY);
size_t size = lseek(ifd, 0, SEEK_END);
lseek(ifd, 0, SEEK_SET);
xsendfile(fd, ifd, nullptr, size);
close(ifd);
return size;
}
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void dyn_img_hdr::print() {
uint32_t ver = header_version();
fprintf(stderr, "%-*s [%u]\n", PADDING, "HEADER_VER", ver);
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if (!is_vendor)
fprintf(stderr, "%-*s [%u]\n", PADDING, "KERNEL_SZ", kernel_size());
fprintf(stderr, "%-*s [%u]\n", PADDING, "RAMDISK_SZ", ramdisk_size());
if (ver < 3)
fprintf(stderr, "%-*s [%u]\n", PADDING, "SECOND_SZ", second_size());
if (ver == 0)
fprintf(stderr, "%-*s [%u]\n", PADDING, "EXTRA_SZ", extra_size());
if (ver == 1 || ver == 2)
fprintf(stderr, "%-*s [%u]\n", PADDING, "RECOV_DTBO_SZ", recovery_dtbo_size());
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if (ver == 2 || is_vendor)
fprintf(stderr, "%-*s [%u]\n", PADDING, "DTB_SZ", dtb_size());
if (uint32_t os_ver = os_version()) {
int a,b,c,y,m = 0;
int version = os_ver >> 11;
int patch_level = os_ver & 0x7ff;
a = (version >> 14) & 0x7f;
b = (version >> 7) & 0x7f;
c = version & 0x7f;
fprintf(stderr, "%-*s [%d.%d.%d]\n", PADDING, "OS_VERSION", a, b, c);
y = (patch_level >> 4) + 2000;
m = patch_level & 0xf;
fprintf(stderr, "%-*s [%d-%02d]\n", PADDING, "OS_PATCH_LEVEL", y, m);
}
fprintf(stderr, "%-*s [%u]\n", PADDING, "PAGESIZE", page_size());
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if (char *n = name()) {
fprintf(stderr, "%-*s [%s]\n", PADDING, "NAME", n);
}
fprintf(stderr, "%-*s [%.*s%.*s]\n", PADDING, "CMDLINE",
BOOT_ARGS_SIZE, cmdline(), BOOT_EXTRA_ARGS_SIZE, extra_cmdline());
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if (char *checksum = id()) {
fprintf(stderr, "%-*s [", PADDING, "CHECKSUM");
for (int i = 0; i < SHA256_DIGEST_SIZE; ++i)
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fprintf(stderr, "%02hhx", checksum[i]);
fprintf(stderr, "]\n");
}
}
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void dyn_img_hdr::dump_hdr_file() {
FILE *fp = xfopen(HEADER_FILE, "w");
if (name())
fprintf(fp, "name=%s\n", name());
fprintf(fp, "cmdline=%.*s%.*s\n", BOOT_ARGS_SIZE, cmdline(), BOOT_EXTRA_ARGS_SIZE, extra_cmdline());
uint32_t ver = os_version();
if (ver) {
int a, b, c, y, m;
int version, patch_level;
version = ver >> 11;
patch_level = ver & 0x7ff;
a = (version >> 14) & 0x7f;
b = (version >> 7) & 0x7f;
c = version & 0x7f;
fprintf(fp, "os_version=%d.%d.%d\n", a, b, c);
y = (patch_level >> 4) + 2000;
m = patch_level & 0xf;
fprintf(fp, "os_patch_level=%d-%02d\n", y, m);
}
fclose(fp);
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}
void dyn_img_hdr::load_hdr_file() {
parse_prop_file(HEADER_FILE, [=](string_view key, string_view value) -> bool {
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if (key == "name" && name()) {
memset(name(), 0, 16);
memcpy(name(), value.data(), value.length() > 15 ? 15 : value.length());
} else if (key == "cmdline") {
memset(cmdline(), 0, BOOT_ARGS_SIZE);
memset(extra_cmdline(), 0, BOOT_EXTRA_ARGS_SIZE);
if (value.length() > BOOT_ARGS_SIZE) {
memcpy(cmdline(), value.data(), BOOT_ARGS_SIZE);
auto len = std::min(value.length() - BOOT_ARGS_SIZE, (size_t) BOOT_EXTRA_ARGS_SIZE);
memcpy(extra_cmdline(), &value[BOOT_ARGS_SIZE], len);
} else {
memcpy(cmdline(), value.data(), value.length());
}
} else if (key == "os_version") {
int patch_level = os_version() & 0x7ff;
int a, b, c;
sscanf(value.data(), "%d.%d.%d", &a, &b, &c);
os_version() = (((a << 14) | (b << 7) | c) << 11) | patch_level;
} else if (key == "os_patch_level") {
int os_ver = os_version() >> 11;
int y, m;
sscanf(value.data(), "%d-%d", &y, &m);
y -= 2000;
os_version() = (os_ver << 11) | (y << 4) | m;
}
return true;
});
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}
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boot_img::boot_img(const char *image) : map(image) {
fprintf(stderr, "Parsing boot image: [%s]\n", image);
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for (uint8_t *addr = map.buf; addr < map.buf + map.sz; ++addr) {
format_t fmt = check_fmt(addr, map.sz);
switch (fmt) {
case CHROMEOS:
// chromeos require external signing
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flags[CHROMEOS_FLAG] = true;
addr += 65535;
break;
case DHTB:
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flags[DHTB_FLAG] = true;
flags[SEANDROID_FLAG] = true;
fprintf(stderr, "DHTB_HDR\n");
addr += sizeof(dhtb_hdr) - 1;
break;
case BLOB:
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flags[BLOB_FLAG] = true;
fprintf(stderr, "TEGRA_BLOB\n");
addr += sizeof(blob_hdr) - 1;
break;
case AOSP:
case AOSP_VENDOR:
parse_image(addr, fmt);
return;
default:
break;
}
}
exit(1);
}
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boot_img::~boot_img() {
delete hdr;
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}
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static int find_dtb_offset(uint8_t *buf, unsigned sz) {
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uint8_t * const end = buf + sz;
for (uint8_t *curr = buf; curr < end; curr += sizeof(fdt_header)) {
curr = static_cast<uint8_t*>(memmem(curr, end - curr, DTB_MAGIC, sizeof(fdt32_t)));
if (curr == nullptr)
return -1;
auto fdt_hdr = reinterpret_cast<fdt_header *>(curr);
// Check that fdt_header.totalsize does not overflow kernel image size
uint32_t totalsize = fdt32_to_cpu(fdt_hdr->totalsize);
if (totalsize > end - curr)
continue;
// Check that fdt_header.off_dt_struct does not overflow kernel image size
uint32_t off_dt_struct = fdt32_to_cpu(fdt_hdr->off_dt_struct);
if (off_dt_struct > end - curr)
continue;
// Check that fdt_node_header.tag of first node is FDT_BEGIN_NODE
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auto fdt_node_hdr = reinterpret_cast<fdt_node_header *>(curr + off_dt_struct);
if (fdt32_to_cpu(fdt_node_hdr->tag) != FDT_BEGIN_NODE)
continue;
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return curr - buf;
}
return -1;
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}
static format_t check_fmt_lg(uint8_t *buf, unsigned sz) {
format_t fmt = check_fmt(buf, sz);
if (fmt == LZ4_LEGACY) {
// We need to check if it is LZ4_LG
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uint32_t off = 4;
uint32_t block_sz;
while (off + sizeof(block_sz) <= sz) {
memcpy(&block_sz, buf + off, sizeof(block_sz));
off += sizeof(block_sz);
if (off + block_sz > sz)
return LZ4_LG;
off += block_sz;
}
}
return fmt;
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}
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#define CMD_MATCH(s) BUFFER_MATCH(h->cmdline, s)
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dyn_img_hdr *boot_img::create_hdr(uint8_t *addr, format_t type) {
if (type == AOSP_VENDOR) {
fprintf(stderr, "VENDOR_BOOT_HDR\n");
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auto h = reinterpret_cast<boot_img_hdr_vnd_v3*>(addr);
hdr_addr = addr;
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switch (h->header_version) {
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case 4:
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return new dyn_img_vnd_v4(addr);
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default:
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return new dyn_img_vnd_v3(addr);
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}
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}
auto h = reinterpret_cast<boot_img_hdr_v0*>(addr);
if (h->page_size >= 0x02000000) {
fprintf(stderr, "PXA_BOOT_HDR\n");
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hdr_addr = addr;
return new dyn_img_pxa(addr);
}
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if (CMD_MATCH(NOOKHD_RL_MAGIC) ||
CMD_MATCH(NOOKHD_GL_MAGIC) ||
CMD_MATCH(NOOKHD_GR_MAGIC) ||
CMD_MATCH(NOOKHD_EB_MAGIC) ||
CMD_MATCH(NOOKHD_ER_MAGIC)) {
flags[NOOKHD_FLAG] = true;
fprintf(stderr, "NOOKHD_LOADER\n");
addr += NOOKHD_PRE_HEADER_SZ;
} else if (memcmp(h->name, ACCLAIM_MAGIC, 10) == 0) {
flags[ACCLAIM_FLAG] = true;
fprintf(stderr, "ACCLAIM_LOADER\n");
addr += ACCLAIM_PRE_HEADER_SZ;
}
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// addr could be adjusted
h = reinterpret_cast<boot_img_hdr_v0*>(addr);
hdr_addr = addr;
switch (h->header_version) {
case 1:
return new dyn_img_v1(addr);
case 2:
return new dyn_img_v2(addr);
case 3:
return new dyn_img_v3(addr);
case 4:
return new dyn_img_v4(addr);
default:
return new dyn_img_v0(addr);
}
}
#define get_block(name) \
name = hdr_addr + off; \
off += hdr->name##_size(); \
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off = align_to(off, hdr->page_size());
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#define get_ignore(name) \
if (hdr->name##_size()) { \
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auto blk_sz = align_to(hdr->name##_size(), hdr->page_size()); \
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ignore_size += blk_sz; \
off += blk_sz; \
}
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void boot_img::parse_image(uint8_t *addr, format_t type) {
hdr = create_hdr(addr, type);
if (char *id = hdr->id()) {
for (int i = SHA_DIGEST_SIZE + 4; i < SHA256_DIGEST_SIZE; ++i) {
if (id[i]) {
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flags[SHA256_FLAG] = true;
break;
}
}
}
hdr->print();
size_t off = hdr->hdr_space();
get_block(kernel);
get_block(ramdisk);
get_block(second);
get_block(extra);
get_block(recovery_dtbo);
get_block(dtb);
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ignore = hdr_addr + off;
get_ignore(signature)
get_ignore(vendor_ramdisk_table)
get_ignore(bootconfig)
if (auto size = hdr->kernel_size()) {
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if (int dtb_off = find_dtb_offset(kernel, size); dtb_off > 0) {
kernel_dtb = kernel + dtb_off;
hdr->kernel_dt_size = size - dtb_off;
hdr->kernel_size() = dtb_off;
fprintf(stderr, "%-*s [%u]\n", PADDING, "KERNEL_DTB_SZ", hdr->kernel_dt_size);
}
k_fmt = check_fmt_lg(kernel, hdr->kernel_size());
if (k_fmt == MTK) {
fprintf(stderr, "MTK_KERNEL_HDR\n");
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flags[MTK_KERNEL] = true;
k_hdr = reinterpret_cast<mtk_hdr *>(kernel);
fprintf(stderr, "%-*s [%u]\n", PADDING, "SIZE", k_hdr->size);
fprintf(stderr, "%-*s [%s]\n", PADDING, "NAME", k_hdr->name);
kernel += sizeof(mtk_hdr);
hdr->kernel_size() -= sizeof(mtk_hdr);
k_fmt = check_fmt_lg(kernel, hdr->kernel_size());
}
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if (k_fmt == ZIMAGE) {
z_hdr = reinterpret_cast<zimage_hdr *>(kernel);
if (void *gzip_offset = memmem(kernel, hdr->kernel_size(), GZIP1_MAGIC "\x08\x00", 4)) {
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fprintf(stderr, "ZIMAGE_KERNEL\n");
z_info.hdr_sz = (uint8_t *) gzip_offset - kernel;
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// Find end of piggy
uint32_t zImage_size = z_hdr->end - z_hdr->start;
uint32_t piggy_end = zImage_size;
uint32_t offsets[16];
memcpy(offsets, kernel + zImage_size - sizeof(offsets), sizeof(offsets));
for (int i = 15; i >= 0; --i) {
if (offsets[i] > (zImage_size - 0xFF) && offsets[i] < zImage_size) {
piggy_end = offsets[i];
break;
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}
}
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if (piggy_end == zImage_size) {
fprintf(stderr, "! Could not find end of zImage piggy, keeping raw kernel\n");
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} else {
flags[ZIMAGE_KERNEL] = true;
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z_info.tail = kernel + piggy_end;
z_info.tail_sz = hdr->kernel_size() - piggy_end;
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kernel += z_info.hdr_sz;
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hdr->kernel_size() = piggy_end - z_info.hdr_sz;
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k_fmt = check_fmt_lg(kernel, hdr->kernel_size());
}
} else {
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fprintf(stderr, "! Could not find zImage gzip piggy, keeping raw kernel\n");
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}
}
fprintf(stderr, "%-*s [%s]\n", PADDING, "KERNEL_FMT", fmt2name[k_fmt]);
}
if (auto size = hdr->ramdisk_size()) {
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if (hdr->is_vendor && hdr->header_version() >= 4) {
// v4 vendor boot contains multiple ramdisks
// Do not try to mess with it for now
r_fmt = UNKNOWN;
} else {
r_fmt = check_fmt_lg(ramdisk, size);
}
if (r_fmt == MTK) {
fprintf(stderr, "MTK_RAMDISK_HDR\n");
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flags[MTK_RAMDISK] = true;
r_hdr = reinterpret_cast<mtk_hdr *>(ramdisk);
fprintf(stderr, "%-*s [%u]\n", PADDING, "SIZE", r_hdr->size);
fprintf(stderr, "%-*s [%s]\n", PADDING, "NAME", r_hdr->name);
ramdisk += sizeof(mtk_hdr);
hdr->ramdisk_size() -= sizeof(mtk_hdr);
r_fmt = check_fmt_lg(ramdisk, hdr->ramdisk_size());
}
fprintf(stderr, "%-*s [%s]\n", PADDING, "RAMDISK_FMT", fmt2name[r_fmt]);
}
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if (!hdr->is_vendor && hdr->ramdisk_size() == 0 && hdr->header_version() == 4) {
// When a v4 boot image does not contain ramdisk, we will have to create
// the CPIO from scratch. However, since this ramdisk will have to be merged
// with other vendor ramdisks, it has to use the exact same compression method.
// v4 GKIs are required to use lz4 (legacy), so hardcode it here.
r_fmt = LZ4_LEGACY;
}
if (auto size = hdr->extra_size()) {
e_fmt = check_fmt_lg(extra, size);
fprintf(stderr, "%-*s [%s]\n", PADDING, "EXTRA_FMT", fmt2name[e_fmt]);
}
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if (addr + off < map.buf + map.sz) {
tail = addr + off;
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tail_size = map.buf + map.sz - tail;
// Check special flags
if (tail_size >= 16 && BUFFER_MATCH(tail, SEANDROID_MAGIC)) {
fprintf(stderr, "SAMSUNG_SEANDROID\n");
flags[SEANDROID_FLAG] = true;
} else if (tail_size >= 16 && BUFFER_MATCH(tail, LG_BUMP_MAGIC)) {
fprintf(stderr, "LG_BUMP_IMAGE\n");
flags[LG_BUMP_FLAG] = true;
}
// Find AVB footer
void *footer = tail + tail_size - sizeof(AvbFooter);
if (BUFFER_MATCH(footer, AVB_FOOTER_MAGIC)) {
avb_footer = reinterpret_cast<AvbFooter*>(footer);
// Double check if meta header exists
void *meta = hdr_addr + __builtin_bswap64(avb_footer->vbmeta_offset);
if (BUFFER_MATCH(meta, AVB_MAGIC)) {
fprintf(stderr, "VBMETA\n");
flags[AVB_FLAG] = true;
vbmeta = reinterpret_cast<AvbVBMetaImageHeader*>(meta);
}
}
}
}
int split_image_dtb(const char *filename) {
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auto img = mmap_data(filename);
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if (int off = find_dtb_offset(img.buf, img.sz); off > 0) {
format_t fmt = check_fmt_lg(img.buf, img.sz);
if (COMPRESSED(fmt)) {
int fd = creat(KERNEL_FILE, 0644);
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decompress(fmt, fd, img.buf, off);
close(fd);
} else {
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dump(img.buf, off, KERNEL_FILE);
}
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dump(img.buf + off, img.sz - off, KER_DTB_FILE);
return 0;
} else {
fprintf(stderr, "Cannot find DTB in %s\n", filename);
return 1;
}
}
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int unpack(const char *image, bool skip_decomp, bool hdr) {
boot_img boot(image);
if (hdr)
boot.hdr->dump_hdr_file();
// Dump kernel
if (!skip_decomp && COMPRESSED(boot.k_fmt)) {
if (boot.hdr->kernel_size() != 0) {
int fd = creat(KERNEL_FILE, 0644);
decompress(boot.k_fmt, fd, boot.kernel, boot.hdr->kernel_size());
close(fd);
}
} else {
dump(boot.kernel, boot.hdr->kernel_size(), KERNEL_FILE);
}
// Dump kernel_dtb
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dump(boot.kernel_dtb, boot.hdr->kernel_dt_size, KER_DTB_FILE);
// Dump ramdisk
if (!skip_decomp && COMPRESSED(boot.r_fmt)) {
if (boot.hdr->ramdisk_size() != 0) {
int fd = creat(RAMDISK_FILE, 0644);
decompress(boot.r_fmt, fd, boot.ramdisk, boot.hdr->ramdisk_size());
close(fd);
}
} else {
dump(boot.ramdisk, boot.hdr->ramdisk_size(), RAMDISK_FILE);
}
// Dump second
dump(boot.second, boot.hdr->second_size(), SECOND_FILE);
// Dump extra
if (!skip_decomp && COMPRESSED(boot.e_fmt)) {
if (boot.hdr->extra_size() != 0) {
int fd = creat(EXTRA_FILE, 0644);
decompress(boot.e_fmt, fd, boot.extra, boot.hdr->extra_size());
close(fd);
}
} else {
dump(boot.extra, boot.hdr->extra_size(), EXTRA_FILE);
}
// Dump recovery_dtbo
dump(boot.recovery_dtbo, boot.hdr->recovery_dtbo_size(), RECV_DTBO_FILE);
// Dump dtb
dump(boot.dtb, boot.hdr->dtb_size(), DTB_FILE);
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return boot.flags[CHROMEOS_FLAG] ? 2 : 0;
}
#define file_align_with(page_size) \
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write_zero(fd, align_padding(lseek(fd, 0, SEEK_CUR) - off.header, page_size))
#define file_align() file_align_with(boot.hdr->page_size())
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void repack(const char *src_img, const char *out_img, bool skip_comp) {
const boot_img boot(src_img);
fprintf(stderr, "Repack to boot image: [%s]\n", out_img);
struct {
uint32_t header;
uint32_t kernel;
uint32_t ramdisk;
uint32_t second;
uint32_t extra;
uint32_t dtb;
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uint32_t total;
uint32_t vbmeta;
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} off{};
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// Create a new boot header and reset sizes
auto hdr = boot.hdr->clone();
hdr->kernel_size() = 0;
hdr->ramdisk_size() = 0;
hdr->second_size() = 0;
hdr->dtb_size() = 0;
hdr->kernel_dt_size = 0;
if (access(HEADER_FILE, R_OK) == 0)
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hdr->load_hdr_file();
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/***************
* Write blocks
***************/
// Create new image
int fd = creat(out_img, 0644);
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if (boot.flags[DHTB_FLAG]) {
// Skip DHTB header
write_zero(fd, sizeof(dhtb_hdr));
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} else if (boot.flags[BLOB_FLAG]) {
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xwrite(fd, boot.map.buf, sizeof(blob_hdr));
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} else if (boot.flags[NOOKHD_FLAG]) {
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xwrite(fd, boot.map.buf, NOOKHD_PRE_HEADER_SZ);
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} else if (boot.flags[ACCLAIM_FLAG]) {
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xwrite(fd, boot.map.buf, ACCLAIM_PRE_HEADER_SZ);
}
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// Copy raw header
off.header = lseek(fd, 0, SEEK_CUR);
xwrite(fd, boot.hdr_addr, hdr->hdr_space());
// kernel
off.kernel = lseek(fd, 0, SEEK_CUR);
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if (boot.flags[MTK_KERNEL]) {
// Copy MTK headers
xwrite(fd, boot.k_hdr, sizeof(mtk_hdr));
}
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if (boot.flags[ZIMAGE_KERNEL]) {
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// Copy zImage headers
xwrite(fd, boot.z_hdr, boot.z_info.hdr_sz);
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}
if (access(KERNEL_FILE, R_OK) == 0) {
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auto m = mmap_data(KERNEL_FILE);
if (!skip_comp && !COMPRESSED_ANY(check_fmt(m.buf, m.sz)) && COMPRESSED(boot.k_fmt)) {
// Always use zopfli for zImage compression
auto fmt = (boot.flags[ZIMAGE_KERNEL] && boot.k_fmt == GZIP) ? ZOPFLI : boot.k_fmt;
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hdr->kernel_size() = compress(fmt, fd, m.buf, m.sz);
} else {
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hdr->kernel_size() = xwrite(fd, m.buf, m.sz);
}
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if (boot.flags[ZIMAGE_KERNEL]) {
if (hdr->kernel_size() > boot.hdr->kernel_size()) {
fprintf(stderr, "! Recompressed kernel is too large, using original kernel\n");
ftruncate64(fd, lseek64(fd, - (off64_t) hdr->kernel_size(), SEEK_CUR));
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xwrite(fd, boot.kernel, boot.hdr->kernel_size());
} else {
// Pad zeros to make sure the zImage file size does not change
// Also ensure the last 4 bytes are the uncompressed vmlinux size
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uint32_t sz = m.sz;
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write_zero(fd, boot.hdr->kernel_size() - hdr->kernel_size() - sizeof(sz));
xwrite(fd, &sz, sizeof(sz));
}
// zImage size shall remain the same
hdr->kernel_size() = boot.hdr->kernel_size();
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}
}
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if (boot.flags[ZIMAGE_KERNEL]) {
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// Copy zImage tail and adjust size accordingly
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hdr->kernel_size() += boot.z_info.hdr_sz;
hdr->kernel_size() += xwrite(fd, boot.z_info.tail, boot.z_info.tail_sz);
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}
// kernel dtb
if (access(KER_DTB_FILE, R_OK) == 0)
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hdr->kernel_size() += restore(fd, KER_DTB_FILE);
file_align();
// ramdisk
off.ramdisk = lseek(fd, 0, SEEK_CUR);
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if (boot.flags[MTK_RAMDISK]) {
// Copy MTK headers
xwrite(fd, boot.r_hdr, sizeof(mtk_hdr));
}
if (access(RAMDISK_FILE, R_OK) == 0) {
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auto m = mmap_data(RAMDISK_FILE);
if (!skip_comp && !COMPRESSED_ANY(check_fmt(m.buf, m.sz)) && COMPRESSED(boot.r_fmt)) {
hdr->ramdisk_size() = compress(boot.r_fmt, fd, m.buf, m.sz);
} else {
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hdr->ramdisk_size() = xwrite(fd, m.buf, m.sz);
}
file_align();
}
// second
off.second = lseek(fd, 0, SEEK_CUR);
if (access(SECOND_FILE, R_OK) == 0) {
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hdr->second_size() = restore(fd, SECOND_FILE);
file_align();
}
// extra
off.extra = lseek(fd, 0, SEEK_CUR);
if (access(EXTRA_FILE, R_OK) == 0) {
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auto m = mmap_data(EXTRA_FILE);
if (!skip_comp && !COMPRESSED_ANY(check_fmt(m.buf, m.sz)) && COMPRESSED(boot.e_fmt)) {
hdr->extra_size() = compress(boot.e_fmt, fd, m.buf, m.sz);
} else {
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hdr->extra_size() = xwrite(fd, m.buf, m.sz);
}
file_align();
}
// recovery_dtbo
if (access(RECV_DTBO_FILE, R_OK) == 0) {
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hdr->recovery_dtbo_offset() = lseek(fd, 0, SEEK_CUR);
hdr->recovery_dtbo_size() = restore(fd, RECV_DTBO_FILE);
file_align();
}
// dtb
off.dtb = lseek(fd, 0, SEEK_CUR);
if (access(DTB_FILE, R_OK) == 0) {
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hdr->dtb_size() = restore(fd, DTB_FILE);
file_align();
}
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// Directly copy ignored blobs
if (boot.ignore_size) {
// ignore_size should already be aligned
xwrite(fd, boot.ignore, boot.ignore_size);
}
// Proprietary stuffs
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if (boot.flags[SEANDROID_FLAG]) {
xwrite(fd, SEANDROID_MAGIC, 16);
if (boot.flags[DHTB_FLAG]) {
xwrite(fd, "\xFF\xFF\xFF\xFF", 4);
}
} else if (boot.flags[LG_BUMP_FLAG]) {
xwrite(fd, LG_BUMP_MAGIC, 16);
}
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off.total = lseek(fd, 0, SEEK_CUR);
file_align();
// vbmeta
if (boot.flags[AVB_FLAG]) {
// According to avbtool.py, if the input is not an Android sparse image
// (which boot images are not), the default block size is 4096
file_align_with(4096);
off.vbmeta = lseek(fd, 0, SEEK_CUR);
uint64_t vbmeta_size = __builtin_bswap64(boot.avb_footer->vbmeta_size);
xwrite(fd, boot.vbmeta, vbmeta_size);
}
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// Pad image to original size if not chromeos (as it requires post processing)
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if (!boot.flags[CHROMEOS_FLAG]) {
off_t current = lseek(fd, 0, SEEK_CUR);
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if (current < boot.map.sz) {
write_zero(fd, boot.map.sz - current);
}
}
close(fd);
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/******************
* Patch the image
******************/
// Map output image as rw
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auto out = mmap_data(out_img, true);
// MTK headers
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if (boot.flags[MTK_KERNEL]) {
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auto m_hdr = reinterpret_cast<mtk_hdr *>(out.buf + off.kernel);
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m_hdr->size = hdr->kernel_size();
hdr->kernel_size() += sizeof(mtk_hdr);
}
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if (boot.flags[MTK_RAMDISK]) {
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auto m_hdr = reinterpret_cast<mtk_hdr *>(out.buf + off.ramdisk);
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m_hdr->size = hdr->ramdisk_size();
hdr->ramdisk_size() += sizeof(mtk_hdr);
}
// Make sure header size matches
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hdr->header_size() = hdr->hdr_size();
// Update checksum
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if (char *id = hdr->id()) {
HASH_CTX ctx;
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boot.flags[SHA256_FLAG] ? SHA256_init(&ctx) : SHA_init(&ctx);
uint32_t size = hdr->kernel_size();
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HASH_update(&ctx, out.buf + off.kernel, size);
HASH_update(&ctx, &size, sizeof(size));
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size = hdr->ramdisk_size();
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HASH_update(&ctx, out.buf + off.ramdisk, size);
HASH_update(&ctx, &size, sizeof(size));
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size = hdr->second_size();
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HASH_update(&ctx, out.buf + off.second, size);
HASH_update(&ctx, &size, sizeof(size));
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size = hdr->extra_size();
if (size) {
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HASH_update(&ctx, out.buf + off.extra, size);
HASH_update(&ctx, &size, sizeof(size));
}
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uint32_t ver = hdr->header_version();
if (ver == 1 || ver == 2) {
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size = hdr->recovery_dtbo_size();
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HASH_update(&ctx, out.buf + hdr->recovery_dtbo_offset(), size);
HASH_update(&ctx, &size, sizeof(size));
}
if (ver == 2) {
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size = hdr->dtb_size();
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HASH_update(&ctx, out.buf + off.dtb, size);
HASH_update(&ctx, &size, sizeof(size));
}
memset(id, 0, BOOT_ID_SIZE);
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memcpy(id, HASH_final(&ctx), boot.flags[SHA256_FLAG] ? SHA256_DIGEST_SIZE : SHA_DIGEST_SIZE);
}
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// Print new header info
hdr->print();
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// Copy main header
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memcpy(out.buf + off.header, hdr->raw_hdr(), hdr->hdr_size());
if (boot.flags[AVB_FLAG]) {
// Copy and patch AVB structures
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auto footer = reinterpret_cast<AvbFooter*>(out.buf + out.sz - sizeof(AvbFooter));
auto vbmeta = reinterpret_cast<AvbVBMetaImageHeader*>(out.buf + off.vbmeta);
memcpy(footer, boot.avb_footer, sizeof(AvbFooter));
footer->original_image_size = __builtin_bswap64(off.total);
footer->vbmeta_offset = __builtin_bswap64(off.vbmeta);
if (check_env("PATCHVBMETAFLAG")) {
vbmeta->flags = __builtin_bswap32(3);
}
}
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if (boot.flags[DHTB_FLAG]) {
// DHTB header
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auto d_hdr = reinterpret_cast<dhtb_hdr *>(out.buf);
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memcpy(d_hdr, DHTB_MAGIC, 8);
d_hdr->size = off.total - sizeof(dhtb_hdr);
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SHA256_hash(out.buf + sizeof(dhtb_hdr), d_hdr->size, d_hdr->checksum);
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} else if (boot.flags[BLOB_FLAG]) {
// Blob header
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auto b_hdr = reinterpret_cast<blob_hdr *>(out.buf);
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b_hdr->size = off.total - sizeof(blob_hdr);
}
}