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import argparse
import hashlib
import os
from pathlib import Path
import platform
import shutil
import struct
import subprocess
from typing import List, Optional, Tuple
parser = argparse.ArgumentParser(description="Fixup for MacOS application bundle")
parser.add_argument("input_directory", help="Input directory (Application path)")
parser.add_argument("executable_sub_path", help="Main executable sub path")
# Use Apple LLVM on Darwin, otherwise standard LLVM.
if platform.system() == "Darwin":
OTOOL = "otool"
INSTALL_NAME_TOOL = "install_name_tool"
else:
OTOOL = shutil.which("llvm-otool")
if OTOOL is None:
for llvm_ver in [15, 14, 13]:
otool_path = shutil.which(f"llvm-otool-{llvm_ver}")
if otool_path is not None:
OTOOL = otool_path
INSTALL_NAME_TOOL = shutil.which(f"llvm-install-name-tool-{llvm_ver}")
break
else:
INSTALL_NAME_TOOL = shutil.which("llvm-install-name-tool")
args = parser.parse_args()
def get_dylib_id(dylib_path: Path) -> str:
res = subprocess.check_output([OTOOL, "-D", str(dylib_path.absolute())]).decode(
"utf-8"
)
return res.split("\n")[1]
def get_dylib_dependencies(dylib_path: Path) -> List[str]:
output = (
subprocess.check_output([OTOOL, "-L", str(dylib_path.absolute())])
.decode("utf-8")
.split("\n")[1:]
)
res = []
for line in output:
line = line.strip()
index = line.find(" (compatibility version ")
if index == -1:
continue
line = line[:index]
res.append(line)
return res
def replace_dylib_id(dylib_path: Path, new_id: str):
subprocess.check_call(
[INSTALL_NAME_TOOL, "-id", new_id, str(dylib_path.absolute())]
)
def change_dylib_link(dylib_path: Path, old: str, new: str):
subprocess.check_call(
[INSTALL_NAME_TOOL, "-change", old, new, str(dylib_path.absolute())]
)
def add_dylib_rpath(dylib_path: Path, rpath: str):
subprocess.check_call(
[INSTALL_NAME_TOOL, "-add_rpath", rpath, str(dylib_path.absolute())]
)
def fixup_dylib(
dylib_path: Path,
replacement_path: str,
search_path: List[str],
content_directory: Path,
):
dylib_id = get_dylib_id(dylib_path)
new_dylib_id = replacement_path + "/" + os.path.basename(dylib_id)
replace_dylib_id(dylib_path, new_dylib_id)
dylib_dependencies = get_dylib_dependencies(dylib_path)
dylib_new_mapping = {}
for dylib_dependency in dylib_dependencies:
if (
not dylib_dependency.startswith("@executable_path")
and not dylib_dependency.startswith("/usr/lib")
and not dylib_dependency.startswith("/System/Library")
):
dylib_dependency_name = os.path.basename(dylib_dependency)
library_found = False
for library_base_path in search_path:
lib_path = Path(os.path.join(library_base_path, dylib_dependency_name))
if lib_path.exists():
target_replacement_path = get_path_related_to_target_exec(
content_directory, lib_path
)
dylib_new_mapping[dylib_dependency] = (
target_replacement_path
+ "/"
+ os.path.basename(dylib_dependency)
)
library_found = True
if not library_found:
raise Exception(
f"{dylib_id}: Cannot find dependency {dylib_dependency_name} for fixup"
)
for key in dylib_new_mapping:
change_dylib_link(dylib_path, key, dylib_new_mapping[key])
FILE_TYPE_ASSEMBLY = 1
ALIGN_REQUIREMENTS = 4096
def parse_embedded_string(data: bytes) -> Tuple[bytes, str]:
first_byte = data[0]
if (first_byte & 0x80) == 0:
size = first_byte
data = data[1:]
else:
second_byte = data[1]
assert (second_byte & 0x80) == 0
size = (second_byte << 7) | (first_byte & 0x7F)
data = data[2:]
res = data[:size].decode("utf-8")
data = data[size:]
return (data, res)
def write_embedded_string(file, string: str):
raw_str = string.encode("utf-8")
raw_str_len = len(raw_str)
assert raw_str_len < 0x7FFF
if raw_str_len > 0x7F:
file.write(struct.pack("b", raw_str_len & 0x7F | 0x80))
file.write(struct.pack("b", raw_str_len >> 7))
else:
file.write(struct.pack("b", raw_str_len))
file.write(raw_str)
class BundleFileEntry(object):
offset: int
size: int
compressed_size: int
file_type: int
relative_path: str
data: bytes
def __init__(
self,
offset: int,
size: int,
compressed_size: int,
file_type: int,
relative_path: str,
data: bytes,
) -> None:
self.offset = offset
self.size = size
self.compressed_size = compressed_size
self.file_type = file_type
self.relative_path = relative_path
self.data = data
def write(self, file):
self.offset = file.tell()
if (
self.file_type == FILE_TYPE_ASSEMBLY
and (self.offset % ALIGN_REQUIREMENTS) != 0
):
padding_size = ALIGN_REQUIREMENTS - (self.offset % ALIGN_REQUIREMENTS)
file.write(b"\0" * padding_size)
self.offset += padding_size
file.write(self.data)
def write_header(self, file):
file.write(
struct.pack(
"QQQb", self.offset, self.size, self.compressed_size, self.file_type
)
)
write_embedded_string(file, self.relative_path)
class BundleManifest(object):
major: int
minor: int
bundle_id: str
deps_json: BundleFileEntry
runtimeconfig_json: BundleFileEntry
flags: int
files: List[BundleFileEntry]
def __init__(
self,
major: int,
minor: int,
bundle_id: str,
deps_json: BundleFileEntry,
runtimeconfig_json: BundleFileEntry,
flags: int,
files: List[BundleFileEntry],
) -> None:
self.major = major
self.minor = minor
self.bundle_id = bundle_id
self.deps_json = deps_json
self.runtimeconfig_json = runtimeconfig_json
self.flags = flags
self.files = files
def write(self, file) -> int:
for bundle_file in self.files:
bundle_file.write(file)
bundle_header_offset = file.tell()
file.write(struct.pack("iiI", self.major, self.minor, len(self.files)))
write_embedded_string(file, self.bundle_id)
if self.deps_json is not None:
deps_json_location_offset = self.deps_json.offset
deps_json_location_size = self.deps_json.size
else:
deps_json_location_offset = 0
deps_json_location_size = 0
if self.runtimeconfig_json is not None:
runtimeconfig_json_location_offset = self.runtimeconfig_json.offset
runtimeconfig_json_location_size = self.runtimeconfig_json.size
else:
runtimeconfig_json_location_offset = 0
runtimeconfig_json_location_size = 0
file.write(
struct.pack("qq", deps_json_location_offset, deps_json_location_size)
)
file.write(
struct.pack(
"qq",
runtimeconfig_json_location_offset,
runtimeconfig_json_location_size,
)
)
file.write(struct.pack("q", self.flags))
for bundle_file in self.files:
bundle_file.write_header(file)
return bundle_header_offset
def read_file_entry(
raw_data: bytes, header_bytes: bytes
) -> Tuple[bytes, BundleFileEntry]:
(
offset,
size,
compressed_size,
file_type,
) = struct.unpack("QQQb", header_bytes[:0x19])
(header_bytes, relative_path) = parse_embedded_string(header_bytes[0x19:])
target_size = compressed_size
if target_size == 0:
target_size = size
return (
header_bytes,
BundleFileEntry(
offset,
size,
compressed_size,
file_type,
relative_path,
raw_data[offset : offset + target_size],
),
)
def get_dotnet_bundle_data(data: bytes) -> Optional[Tuple[int, int, BundleManifest]]:
offset = data.find(hashlib.sha256(b".net core bundle\n").digest())
if offset == -1:
return None
raw_header_offset = data[offset - 8 : offset]
(header_offset,) = struct.unpack("q", raw_header_offset)
header_bytes = data[header_offset:]
(
major,
minor,
files_count,
) = struct.unpack("iiI", header_bytes[:0xC])
header_bytes = header_bytes[0xC:]
(header_bytes, bundle_id) = parse_embedded_string(header_bytes)
# v2 header
(
deps_json_location_offset,
deps_json_location_size,
) = struct.unpack("qq", header_bytes[:0x10])
(
runtimeconfig_json_location_offset,
runtimeconfig_json_location_size,
) = struct.unpack("qq", header_bytes[0x10:0x20])
(flags,) = struct.unpack("q", header_bytes[0x20:0x28])
header_bytes = header_bytes[0x28:]
files = []
deps_json = None
runtimeconfig_json = None
for _ in range(files_count):
(header_bytes, file_entry) = read_file_entry(data, header_bytes)
files.append(file_entry)
if file_entry.offset == deps_json_location_offset:
deps_json = file_entry
elif file_entry.offset == runtimeconfig_json_location_offset:
runtimeconfig_json = file_entry
file_entry = files[0]
return (
file_entry.offset,
header_offset,
BundleManifest(
major, minor, bundle_id, deps_json, runtimeconfig_json, flags, files
),
)
LC_SYMTAB = 0x2
LC_SEGMENT_64 = 0x19
LC_CODE_SIGNATURE = 0x1D
def fixup_linkedit(file, data: bytes, new_size: int):
offset = 0
(
macho_magic,
macho_cputype,
macho_cpusubtype,
macho_filetype,
macho_ncmds,
macho_sizeofcmds,
macho_flags,
macho_reserved,
) = struct.unpack("IiiIIIII", data[offset : offset + 0x20])
offset += 0x20
linkedit_offset = None
symtab_offset = None
codesign_offset = None
for _ in range(macho_ncmds):
(cmd, cmdsize) = struct.unpack("II", data[offset : offset + 8])
if cmd == LC_SEGMENT_64:
(
cmd,
cmdsize,
segname_raw,
vmaddr,
vmsize,
fileoff,
filesize,
maxprot,
initprot,
nsects,
flags,
) = struct.unpack("II16sQQQQiiII", data[offset : offset + 72])
segname = segname_raw.decode("utf-8").split("\0")[0]
if segname == "__LINKEDIT":
linkedit_offset = offset
elif cmd == LC_SYMTAB:
symtab_offset = offset
elif cmd == LC_CODE_SIGNATURE:
codesign_offset = offset
offset += cmdsize
pass
assert linkedit_offset is not None and symtab_offset is not None
# If there is a codesign section, clean it up.
if codesign_offset is not None:
(
codesign_cmd,
codesign_cmdsize,
codesign_dataoff,
codesign_datasize,
) = struct.unpack("IIII", data[codesign_offset : codesign_offset + 16])
file.seek(codesign_offset)
file.write(b"\0" * codesign_cmdsize)
macho_ncmds -= 1
macho_sizeofcmds -= codesign_cmdsize
file.seek(0)
file.write(
struct.pack(
"IiiIIIII",
macho_magic,
macho_cputype,
macho_cpusubtype,
macho_filetype,
macho_ncmds,
macho_sizeofcmds,
macho_flags,
macho_reserved,
)
)
file.seek(codesign_dataoff)
file.write(b"\0" * codesign_datasize)
(
symtab_cmd,
symtab_cmdsize,
symtab_symoff,
symtab_nsyms,
symtab_stroff,
symtab_strsize,
) = struct.unpack("IIIIII", data[symtab_offset : symtab_offset + 24])
symtab_strsize = new_size - symtab_stroff
new_symtab = struct.pack(
"IIIIII",
symtab_cmd,
symtab_cmdsize,
symtab_symoff,
symtab_nsyms,
symtab_stroff,
symtab_strsize,
)
file.seek(symtab_offset)
file.write(new_symtab)
(
linkedit_cmd,
linkedit_cmdsize,
linkedit_segname_raw,
linkedit_vmaddr,
linkedit_vmsize,
linkedit_fileoff,
linkedit_filesize,
linkedit_maxprot,
linkedit_initprot,
linkedit_nsects,
linkedit_flags,
) = struct.unpack("II16sQQQQiiII", data[linkedit_offset : linkedit_offset + 72])
linkedit_filesize = new_size - linkedit_fileoff
linkedit_vmsize = linkedit_filesize
new_linkedit = struct.pack(
"II16sQQQQiiII",
linkedit_cmd,
linkedit_cmdsize,
linkedit_segname_raw,
linkedit_vmaddr,
linkedit_vmsize,
linkedit_fileoff,
linkedit_filesize,
linkedit_maxprot,
linkedit_initprot,
linkedit_nsects,
linkedit_flags,
)
file.seek(linkedit_offset)
file.write(new_linkedit)
def write_bundle_data(
output,
old_bundle_base_offset: int,
new_bundle_base_offset: int,
bundle: BundleManifest,
) -> int:
# Write bundle data
bundle_header_offset = bundle.write(output)
total_size = output.tell()
# Patch the header position
offset = file_data.find(hashlib.sha256(b".net core bundle\n").digest())
output.seek(offset - 8)
output.write(struct.pack("q", bundle_header_offset))
return total_size - new_bundle_base_offset
input_directory: Path = Path(args.input_directory)
content_directory: Path = Path(os.path.join(args.input_directory, "Contents"))
executable_path: Path = Path(os.path.join(content_directory, args.executable_sub_path))
def get_path_related_to_other_path(a: Path, b: Path) -> str:
temp = b
parts = []
while temp != a:
temp = temp.parent
parts.append(temp.name)
parts.remove(parts[-1])
parts.reverse()
return "/".join(parts)
def get_path_related_to_target_exec(input_directory: Path, path: Path):
return "@executable_path/../" + get_path_related_to_other_path(
input_directory, path
)
search_path = [
Path(os.path.join(content_directory, "Frameworks")),
Path(os.path.join(content_directory, "Resources/lib")),
]
for path in content_directory.rglob("**/*.dylib"):
current_search_path = [path.parent]
current_search_path.extend(search_path)
fixup_dylib(
path,
get_path_related_to_target_exec(content_directory, path),
current_search_path,
content_directory,
)
for path in content_directory.rglob("**/*.so"):
current_search_path = [path.parent]
current_search_path.extend(search_path)
fixup_dylib(
path,
get_path_related_to_target_exec(content_directory, path),
current_search_path,
content_directory,
)
with open(executable_path, "rb") as input:
file_data = input.read()
(bundle_base_offset, bundle_header_offset, bundle) = get_dotnet_bundle_data(file_data)
add_dylib_rpath(executable_path, "@executable_path/../Frameworks/")
# Recent "vanilla" version of LLVM (LLVM 13 and upper) seems to really dislike how .NET package its assemblies.
# As a result, after execution of install_name_tool it will have "fixed" the symtab resulting in a missing .NET bundle...
# To mitigate that, we check if the bundle offset inside the binary is valid after install_name_tool and readd .NET bundle if not.
output_file_size = os.stat(executable_path).st_size
if output_file_size < bundle_header_offset:
print("LLVM broke the .NET bundle, readding bundle data...")
with open(executable_path, "r+b") as output:
file_data = output.read()
bundle_data_size = write_bundle_data(
output, bundle_base_offset, output_file_size, bundle
)
# Now patch the __LINKEDIT section
new_size = output_file_size + bundle_data_size
fixup_linkedit(output, file_data, new_size)
|