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|
# Copyright 2011 The Emscripten Authors. All rights reserved.
# Emscripten is available under two separate licenses, the MIT license and the
# University of Illinois/NCSA Open Source License. Both these licenses can be
# found in the LICENSE file.
"""Utilties for manipulating WebAssembly binaries from python.
"""
from collections import namedtuple
from enum import IntEnum
from functools import wraps
import logging
import os
import sys
from . import utils
sys.path.append(utils.path_from_root('third_party'))
import leb128
logger = logging.getLogger('webassembly')
WASM_PAGE_SIZE = 65536
MAGIC = b'\0asm'
VERSION = b'\x01\0\0\0'
HEADER_SIZE = 8
LIMITS_HAS_MAX = 0x1
SEG_PASSIVE = 0x1
PREFIX_MATH = 0xfc
PREFIX_THREADS = 0xfe
PREFIX_SIMD = 0xfd
SYMBOL_BINDING_MASK = 0x3
SYMBOL_BINDING_GLOBAL = 0x0
SYMBOL_BINDING_WEAK = 0x1
SYMBOL_BINDING_LOCAL = 0x2
def to_leb(num):
return leb128.u.encode(num)
def read_uleb(iobuf):
return leb128.u.decode_reader(iobuf)[0]
def read_sleb(iobuf):
return leb128.i.decode_reader(iobuf)[0]
def memoize(method):
@wraps(method)
def wrapper(self, *args, **kwargs):
assert not kwargs
key = (method.__name__, args)
if key not in self._cache:
self._cache[key] = method(self, *args, **kwargs)
return self._cache[key]
return wrapper
def once(method):
@wraps(method)
def helper(self, *args, **kwargs):
key = method
if key not in self._cache:
self._cache[key] = method(self, *args, **kwargs)
return helper
class Type(IntEnum):
I32 = 0x7f # -0x1
I64 = 0x7e # -0x2
F32 = 0x7d # -0x3
F64 = 0x7c # -0x4
V128 = 0x7b # -0x5
FUNCREF = 0x70 # -0x10
EXTERNREF = 0x6f # -0x11
VOID = 0x40 # -0x40
class OpCode(IntEnum):
NOP = 0x01
BLOCK = 0x02
END = 0x0b
BR = 0x0c
BR_TABLE = 0x0e
CALL = 0x10
DROP = 0x1a
LOCAL_GET = 0x20
LOCAL_SET = 0x21
LOCAL_TEE = 0x22
GLOBAL_GET = 0x23
GLOBAL_SET = 0x24
RETURN = 0x0f
I32_CONST = 0x41
I64_CONST = 0x42
F32_CONST = 0x43
F64_CONST = 0x44
I32_ADD = 0x6a
I64_ADD = 0x7c
REF_NULL = 0xd0
ATOMIC_PREFIX = 0xfe
MEMORY_PREFIX = 0xfc
class MemoryOpCode(IntEnum):
MEMORY_INIT = 0x08
MEMORY_DROP = 0x09
MEMORY_COPY = 0x0a
MEMORY_FILL = 0x0b
class AtomicOpCode(IntEnum):
ATOMIC_NOTIFY = 0x00
ATOMIC_WAIT32 = 0x01
ATOMIC_WAIT64 = 0x02
ATOMIC_I32_STORE = 0x17
ATOMIC_I32_RMW_CMPXCHG = 0x48
class SecType(IntEnum):
CUSTOM = 0
TYPE = 1
IMPORT = 2
FUNCTION = 3
TABLE = 4
MEMORY = 5
TAG = 13
GLOBAL = 6
EXPORT = 7
START = 8
ELEM = 9
DATACOUNT = 12
CODE = 10
DATA = 11
class ExternType(IntEnum):
FUNC = 0
TABLE = 1
MEMORY = 2
GLOBAL = 3
TAG = 4
class DylinkType(IntEnum):
MEM_INFO = 1
NEEDED = 2
EXPORT_INFO = 3
IMPORT_INFO = 4
class InvalidWasmError(BaseException):
pass
Section = namedtuple('Section', ['type', 'size', 'offset', 'name'])
Limits = namedtuple('Limits', ['flags', 'initial', 'maximum'])
Import = namedtuple('Import', ['kind', 'module', 'field', 'type'])
Export = namedtuple('Export', ['name', 'kind', 'index'])
Global = namedtuple('Global', ['type', 'mutable', 'init'])
Dylink = namedtuple('Dylink', ['mem_size', 'mem_align', 'table_size', 'table_align', 'needed', 'export_info', 'import_info'])
Table = namedtuple('Table', ['elem_type', 'limits'])
FunctionBody = namedtuple('FunctionBody', ['offset', 'size'])
DataSegment = namedtuple('DataSegment', ['flags', 'init', 'offset', 'size'])
FuncType = namedtuple('FuncType', ['params', 'returns'])
class Module:
"""Extremely minimal wasm module reader. Currently only used
for parsing the dylink section."""
def __init__(self, filename):
self.buf = None # Set this before FS calls below in case they throw.
self.filename = filename
self.size = os.path.getsize(filename)
self.buf = open(filename, 'rb')
magic = self.buf.read(4)
version = self.buf.read(4)
if magic != MAGIC or version != VERSION:
raise InvalidWasmError(f'{filename} is not a valid wasm file')
self._cache = {}
def __del__(self):
assert not self.buf, '`__exit__` should have already been called, please use context manager'
def __enter__(self):
return self
def __exit__(self, _exc_type, _exc_val, _exc_tb):
if self.buf:
self.buf.close()
self.buf = None
def read_at(self, offset, count):
self.buf.seek(offset)
return self.buf.read(count)
def read_byte(self):
return self.buf.read(1)[0]
def read_uleb(self):
return read_uleb(self.buf)
def read_sleb(self):
return read_sleb(self.buf)
def read_string(self):
size = self.read_uleb()
return self.buf.read(size).decode('utf-8')
def read_limits(self):
flags = self.read_byte()
initial = self.read_uleb()
maximum = 0
if flags & LIMITS_HAS_MAX:
maximum = self.read_uleb()
return Limits(flags, initial, maximum)
def read_type(self):
return Type(self.read_uleb())
def read_init(self):
code = []
while 1:
opcode = OpCode(self.read_byte())
args = []
if opcode == OpCode.GLOBAL_GET:
args.append(self.read_uleb())
elif opcode in (OpCode.I32_CONST, OpCode.I64_CONST):
args.append(self.read_sleb())
elif opcode in (OpCode.REF_NULL,):
args.append(self.read_type())
elif opcode in (OpCode.END, OpCode.I32_ADD, OpCode.I64_ADD):
pass
else:
raise Exception('unexpected opcode %s' % opcode)
code.append((opcode, args))
if opcode == OpCode.END:
break
return code
def seek(self, offset):
return self.buf.seek(offset)
def tell(self):
return self.buf.tell()
def skip(self, count):
self.buf.seek(count, os.SEEK_CUR)
def sections(self):
"""Generator that lazily returns sections from the wasm file."""
offset = HEADER_SIZE
while offset < self.size:
self.seek(offset)
section_type = SecType(self.read_byte())
section_size = self.read_uleb()
section_offset = self.buf.tell()
name = None
if section_type == SecType.CUSTOM:
name = self.read_string()
yield Section(section_type, section_size, section_offset, name)
offset = section_offset + section_size
@memoize
def get_types(self):
type_section = self.get_section(SecType.TYPE)
if not type_section:
return []
self.seek(type_section.offset)
num_types = self.read_uleb()
types = []
for _ in range(num_types):
type_form = self.read_byte()
assert type_form == 0x60
params = []
num_params = self.read_uleb()
for _ in range(num_params):
params.append(self.read_type())
returns = []
num_returns = self.read_uleb()
for _ in range(num_returns):
returns.append(self.read_type())
types.append(FuncType(params, returns))
return types
def parse_features_section(self):
features = []
sec = self.get_custom_section('target_features')
if sec:
self.seek(sec.offset)
self.read_string() # name
feature_count = self.read_uleb()
while feature_count:
prefix = self.read_byte()
features.append((chr(prefix), self.read_string()))
feature_count -= 1
return features
@memoize
def parse_dylink_section(self):
dylink_section = next(self.sections())
assert dylink_section.type == SecType.CUSTOM
self.seek(dylink_section.offset)
# section name
needed = []
export_info = {}
import_info = {}
self.read_string() # name
if dylink_section.name == 'dylink':
mem_size = self.read_uleb()
mem_align = self.read_uleb()
table_size = self.read_uleb()
table_align = self.read_uleb()
needed_count = self.read_uleb()
while needed_count:
libname = self.read_string()
needed.append(libname)
needed_count -= 1
elif dylink_section.name == 'dylink.0':
section_end = dylink_section.offset + dylink_section.size
while self.tell() < section_end:
subsection_type = self.read_uleb()
subsection_size = self.read_uleb()
end = self.tell() + subsection_size
if subsection_type == DylinkType.MEM_INFO:
mem_size = self.read_uleb()
mem_align = self.read_uleb()
table_size = self.read_uleb()
table_align = self.read_uleb()
elif subsection_type == DylinkType.NEEDED:
needed_count = self.read_uleb()
while needed_count:
libname = self.read_string()
needed.append(libname)
needed_count -= 1
elif subsection_type == DylinkType.EXPORT_INFO:
count = self.read_uleb()
while count:
sym = self.read_string()
flags = self.read_uleb()
export_info[sym] = flags
count -= 1
elif subsection_type == DylinkType.IMPORT_INFO:
count = self.read_uleb()
while count:
module = self.read_string()
field = self.read_string()
flags = self.read_uleb()
import_info.setdefault(module, {})
import_info[module][field] = flags
count -= 1
else:
print(f'unknown subsection: {subsection_type}')
# ignore unknown subsections
self.skip(subsection_size)
assert self.tell() == end
else:
utils.exit_with_error('error parsing shared library')
return Dylink(mem_size, mem_align, table_size, table_align, needed, export_info, import_info)
@memoize
def get_exports(self):
export_section = self.get_section(SecType.EXPORT)
if not export_section:
return []
self.seek(export_section.offset)
num_exports = self.read_uleb()
exports = []
for _ in range(num_exports):
name = self.read_string()
kind = ExternType(self.read_byte())
index = self.read_uleb()
exports.append(Export(name, kind, index))
return exports
@memoize
def get_imports(self):
import_section = self.get_section(SecType.IMPORT)
if not import_section:
return []
self.seek(import_section.offset)
num_imports = self.read_uleb()
imports = []
for _ in range(num_imports):
mod = self.read_string()
field = self.read_string()
kind = ExternType(self.read_byte())
type_ = None
if kind == ExternType.FUNC:
type_ = self.read_uleb()
elif kind == ExternType.GLOBAL:
type_ = self.read_sleb()
self.read_byte() # mutable
elif kind == ExternType.MEMORY:
self.read_limits() # limits
elif kind == ExternType.TABLE:
type_ = self.read_sleb()
self.read_limits() # limits
elif kind == ExternType.TAG:
self.read_byte() # attribute
type_ = self.read_uleb()
else:
raise AssertionError()
imports.append(Import(kind, mod, field, type_))
return imports
@memoize
def get_globals(self):
global_section = self.get_section(SecType.GLOBAL)
if not global_section:
return []
globls = []
self.seek(global_section.offset)
num_globals = self.read_uleb()
for _ in range(num_globals):
global_type = self.read_type()
mutable = self.read_byte()
init = self.read_init()
globls.append(Global(global_type, mutable, init))
return globls
@memoize
def get_start(self):
start_section = self.get_section(SecType.START)
if not start_section:
return None
self.seek(start_section.offset)
return self.read_uleb()
@memoize
def get_functions(self):
code_section = self.get_section(SecType.CODE)
if not code_section:
return []
functions = []
self.seek(code_section.offset)
num_functions = self.read_uleb()
for _ in range(num_functions):
body_size = self.read_uleb()
start = self.tell()
functions.append(FunctionBody(start, body_size))
self.seek(start + body_size)
return functions
def get_section(self, section_code):
return next((s for s in self.sections() if s.type == section_code), None)
@memoize
def get_custom_section(self, name):
for section in self.sections():
if section.type == SecType.CUSTOM and section.name == name:
return section
return None
@memoize
def get_segments(self):
segments = []
data_section = self.get_section(SecType.DATA)
self.seek(data_section.offset)
num_segments = self.read_uleb()
for _ in range(num_segments):
flags = self.read_uleb()
if (flags & SEG_PASSIVE):
init = None
else:
init = self.read_init()
size = self.read_uleb()
offset = self.tell()
segments.append(DataSegment(flags, init, offset, size))
self.seek(offset + size)
return segments
@memoize
def get_tables(self):
table_section = self.get_section(SecType.TABLE)
if not table_section:
return []
self.seek(table_section.offset)
num_tables = self.read_uleb()
tables = []
for _ in range(num_tables):
elem_type = self.read_type()
limits = self.read_limits()
tables.append(Table(elem_type, limits))
return tables
@memoize
def get_function_types(self):
function_section = self.get_section(SecType.FUNCTION)
if not function_section:
return []
self.seek(function_section.offset)
num_types = self.read_uleb()
func_types = []
for _ in range(num_types):
func_types.append(self.read_uleb())
return func_types
def has_name_section(self):
return self.get_custom_section('name') is not None
@once
def _calc_indexes(self):
self.imports_by_kind = {}
for i in self.get_imports():
self.imports_by_kind.setdefault(i.kind, [])
self.imports_by_kind[i.kind].append(i)
def num_imported_funcs(self):
self._calc_indexes()
return len(self.imports_by_kind.get(ExternType.FUNC, []))
def num_imported_globals(self):
self._calc_indexes()
return len(self.imports_by_kind.get(ExternType.GLOBAL, []))
def get_function(self, idx):
self._calc_indexes()
assert idx >= self.num_imported_funcs()
return self.get_functions()[idx - self.num_imported_funcs()]
def get_global(self, idx):
self._calc_indexes()
assert idx >= self.num_imported_globals()
return self.get_globals()[idx - self.num_imported_globals()]
def get_function_type(self, idx):
self._calc_indexes()
if idx < self.num_imported_funcs():
imp = self.imports_by_kind[ExternType.FUNC][idx]
func_type = imp.type
else:
func_type = self.get_function_types()[idx - self.num_imported_funcs()]
return self.get_types()[func_type]
def parse_dylink_section(wasm_file):
with Module(wasm_file) as module:
return module.parse_dylink_section()
def get_exports(wasm_file):
with Module(wasm_file) as module:
return module.get_exports()
def get_imports(wasm_file):
with Module(wasm_file) as module:
return module.get_imports()
def get_weak_imports(wasm_file):
weak_imports = []
dylink_sec = parse_dylink_section(wasm_file)
for symbols in dylink_sec.import_info.values():
for symbol, flags in symbols.items():
if flags & SYMBOL_BINDING_MASK == SYMBOL_BINDING_WEAK:
weak_imports.append(symbol)
return weak_imports
|
