0
0
Fork 0
mirror of https://github.com/GreemDev/Ryujinx.git synced 2024-12-24 01:35:46 +00:00
Ryujinx/distribution/macos/bundle_fix_up.py

610 lines
16 KiB
Python
Raw Normal View History

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)