topjohnwu 02dc1172be Revert DTB patches to in-place binary patches
Since we no longer need to add new properties in the device tree, and
all the patches we do removes strings, we can just directly patch
the flat device tree in-place, ignoring basically all the higher level
DTB structure and format to accomplish 100% compatibility.
2020-05-05 01:03:09 -07:00

198 lines
5.6 KiB
C++

#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <sys/mman.h>
#include <mincrypt/sha.h>
#include <logging.hpp>
#include <utils.hpp>
#include <flags.h>
#include "magiskboot.hpp"
#include "compress.hpp"
using namespace std;
static void usage(char *arg0) {
fprintf(stderr,
NAME_WITH_VER(MagiskBoot) R"EOF( - Boot Image Modification Tool
Usage: %s <action> [args...]
Supported actions:
unpack [-n] [-h] <bootimg>
Unpack <bootimg> to, if available, kernel, kernel_dtb, ramdisk.cpio,
second, dtb, extra, and recovery_dtbo into current directory.
If '-n' is provided, it will not attempt to decompress kernel or
ramdisk.cpio from their original formats.
If '-h' is provided, it will dump header info to 'header',
which will be parsed when repacking.
Return values:
0:valid 1:error 2:chromeos
repack [-n] <origbootimg> [outbootimg]
Repack boot image components from current directory
to [outbootimg], or new-boot.img if not specified.
If '-n' is provided, it will not attempt to recompress ramdisk.cpio,
otherwise it will compress ramdisk.cpio and kernel with the same method
in <origbootimg> if the file provided is not already compressed.
hexpatch <file> <hexpattern1> <hexpattern2>
Search <hexpattern1> in <file>, and replace with <hexpattern2>
cpio <incpio> [commands...]
Do cpio commands to <incpio> (modifications are done in-place)
Each command is a single argument, add quotes for each command
Supported commands:
exists ENTRY
Return 0 if ENTRY exists, else return 1
rm [-r] ENTRY
Remove ENTRY, specify [-r] to remove recursively
mkdir MODE ENTRY
Create directory ENTRY in permissions MODE
ln TARGET ENTRY
Create a symlink to TARGET with the name ENTRY
mv SOURCE DEST
Move SOURCE to DEST
add MODE ENTRY INFILE
Add INFILE as ENTRY in permissions MODE; replaces ENTRY if exists
extract [ENTRY OUT]
Extract ENTRY to OUT, or extract all entries to current directory
test
Test the current cpio's patch status
Return values:
0:stock 1:Magisk 2:unsupported (phh, SuperSU, Xposed)
patch
Apply ramdisk patches
Configure with env variables: KEEPVERITY KEEPFORCEENCRYPT
backup ORIG
Create ramdisk backups from ORIG
restore
Restore ramdisk from ramdisk backup stored within incpio
sha1
Print stock boot SHA1 if previously backed up in ramdisk
dtb <input> <action> [args...]
Do dtb related actions to <input>
Supported actions:
print [-f]
Print all contents of dtb for debugging
Specify [-f] to only print fstab nodes
patch
Search for fstab and remove verity/avb
Modifications are done directly to the file in-place
Configure with env variables: KEEPVERITY
split <input>
Split image.*-dtb into kernel + kernel_dtb
sha1 <file>
Print the SHA1 checksum for <file>
cleanup
Cleanup the current working directory
compress[=method] <infile> [outfile]
Compress <infile> with [method] (default: gzip), optionally to [outfile]
<infile>/[outfile] can be '-' to be STDIN/STDOUT
Supported methods: )EOF", arg0);
for (auto &it : name2fmt)
fprintf(stderr, "%s ", it.first.data());
fprintf(stderr, R"EOF(
decompress <infile> [outfile]
Detect method and decompress <infile>, optionally to [outfile]
<infile>/[outfile] can be '-' to be STDIN/STDOUT
Supported methods: )EOF");
for (auto &it : name2fmt)
fprintf(stderr, "%s ", it.first.data());
fprintf(stderr, "\n\n");
exit(1);
}
int main(int argc, char *argv[]) {
cmdline_logging();
umask(0);
if (argc < 2)
usage(argv[0]);
// Skip '--' for backwards compatibility
string_view action(argv[1]);
if (str_starts(action, "--"))
action = argv[1] + 2;
if (action == "cleanup") {
fprintf(stderr, "Cleaning up...\n");
unlink(HEADER_FILE);
unlink(KERNEL_FILE);
unlink(RAMDISK_FILE);
unlink(SECOND_FILE);
unlink(KER_DTB_FILE);
unlink(EXTRA_FILE);
unlink(RECV_DTBO_FILE);
unlink(DTB_FILE);
} else if (argc > 2 && action == "sha1") {
uint8_t sha1[SHA_DIGEST_SIZE];
void *buf;
size_t size;
mmap_ro(argv[2], buf, size);
SHA_hash(buf, size, sha1);
for (uint8_t i : sha1)
printf("%02x", i);
printf("\n");
munmap(buf, size);
} else if (argc > 2 && action == "split") {
return split_image_dtb(argv[2]);
} else if (argc > 2 && action == "unpack") {
int idx = 2;
bool nodecomp = false;
bool hdr = false;
for (;;) {
if (idx >= argc)
usage(argv[0]);
if (argv[idx][0] != '-')
break;
for (char *flag = &argv[idx][1]; *flag; ++flag) {
if (*flag == 'n')
nodecomp = true;
else if (*flag == 'h')
hdr = true;
else
usage(argv[0]);
}
++idx;
}
return unpack(argv[idx], nodecomp, hdr);
} else if (argc > 2 && action == "repack") {
if (argv[2] == "-n"sv) {
if (argc == 3)
usage(argv[0]);
repack(argv[3], argv[4] ? argv[4] : NEW_BOOT, true);
} else {
repack(argv[2], argv[3] ? argv[3] : NEW_BOOT);
}
} else if (argc > 2 && action == "decompress") {
decompress(argv[2], argv[3]);
} else if (argc > 2 && str_starts(action, "compress")) {
compress(action[8] == '=' ? &action[9] : "gzip", argv[2], argv[3]);
} else if (argc > 4 && action == "hexpatch") {
return hexpatch(argv[2], argv[3], argv[4]);
} else if (argc > 2 && action == "cpio"sv) {
if (cpio_commands(argc - 2, argv + 2))
usage(argv[0]);
} else if (argc > 3 && action == "dtb") {
if (dtb_commands(argc - 2, argv + 2))
usage(argv[0]);
} else {
usage(argv[0]);
}
return 0;
}