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from __future__ import unicode_literals
import collections
import io
import zlib
from .compat import (
compat_str,
compat_struct_unpack,
)
from .utils import (
ExtractorError,
)
def _extract_tags(file_contents):
if file_contents[1:3] != b'WS':
raise ExtractorError(
'Not an SWF file; header is %r' % file_contents[:3])
if file_contents[:1] == b'C':
content = zlib.decompress(file_contents[8:])
else:
raise NotImplementedError(
'Unsupported compression format %r' %
file_contents[:1])
# Determine number of bits in framesize rectangle
framesize_nbits = compat_struct_unpack('!B', content[:1])[0] >> 3
framesize_len = (5 + 4 * framesize_nbits + 7) // 8
pos = framesize_len + 2 + 2
while pos < len(content):
header16 = compat_struct_unpack('<H', content[pos:pos + 2])[0]
pos += 2
tag_code = header16 >> 6
tag_len = header16 & 0x3f
if tag_len == 0x3f:
tag_len = compat_struct_unpack('<I', content[pos:pos + 4])[0]
pos += 4
assert pos + tag_len <= len(content), \
('Tag %d ends at %d+%d - that\'s longer than the file (%d)'
% (tag_code, pos, tag_len, len(content)))
yield (tag_code, content[pos:pos + tag_len])
pos += tag_len
class _AVMClass_Object(object):
def __init__(self, avm_class):
self.avm_class = avm_class
def __repr__(self):
return '%s#%x' % (self.avm_class.name, id(self))
class _ScopeDict(dict):
def __init__(self, avm_class):
super(_ScopeDict, self).__init__()
self.avm_class = avm_class
def __repr__(self):
return '%s__Scope(%s)' % (
self.avm_class.name,
super(_ScopeDict, self).__repr__())
class _AVMClass(object):
def __init__(self, name_idx, name, static_properties=None):
self.name_idx = name_idx
self.name = name
self.method_names = {}
self.method_idxs = {}
self.methods = {}
self.method_pyfunctions = {}
self.static_properties = static_properties if static_properties else {}
self.variables = _ScopeDict(self)
self.constants = {}
def make_object(self):
return _AVMClass_Object(self)
def __repr__(self):
return '_AVMClass(%s)' % (self.name)
def register_methods(self, methods):
self.method_names.update(methods.items())
self.method_idxs.update(dict(
(idx, name)
for name, idx in methods.items()))
class _Multiname(object):
def __init__(self, kind):
self.kind = kind
def __repr__(self):
return '[MULTINAME kind: 0x%x]' % self.kind
def _read_int(reader):
res = 0
shift = 0
for _ in range(5):
buf = reader.read(1)
assert len(buf) == 1
b = compat_struct_unpack('<B', buf)[0]
res = res | ((b & 0x7f) << shift)
if b & 0x80 == 0:
break
shift += 7
return res
def _u30(reader):
res = _read_int(reader)
assert res & 0xf0000000 == 0
return res
_u32 = _read_int
def _s32(reader):
v = _read_int(reader)
if v & 0x80000000 != 0:
v = - ((v ^ 0xffffffff) + 1)
return v
def _s24(reader):
bs = reader.read(3)
assert len(bs) == 3
last_byte = b'\xff' if (ord(bs[2:3]) >= 0x80) else b'\x00'
return compat_struct_unpack('<i', bs + last_byte)[0]
def _read_string(reader):
slen = _u30(reader)
resb = reader.read(slen)
assert len(resb) == slen
return resb.decode('utf-8')
def _read_bytes(count, reader):
assert count >= 0
resb = reader.read(count)
assert len(resb) == count
return resb
def _read_byte(reader):
resb = _read_bytes(1, reader=reader)
res = compat_struct_unpack('<B', resb)[0]
return res
StringClass = _AVMClass('(no name idx)', 'String')
ByteArrayClass = _AVMClass('(no name idx)', 'ByteArray')
TimerClass = _AVMClass('(no name idx)', 'Timer')
TimerEventClass = _AVMClass('(no name idx)', 'TimerEvent', {'TIMER': 'timer'})
_builtin_classes = {
StringClass.name: StringClass,
ByteArrayClass.name: ByteArrayClass,
TimerClass.name: TimerClass,
TimerEventClass.name: TimerEventClass,
}
class _Undefined(object):
def __bool__(self):
return False
__nonzero__ = __bool__
def __hash__(self):
return 0
def __str__(self):
return 'undefined'
__repr__ = __str__
undefined = _Undefined()
class SWFInterpreter(object):
def __init__(self, file_contents):
self._patched_functions = {
(TimerClass, 'addEventListener'): lambda params: undefined,
}
code_tag = next(tag
for tag_code, tag in _extract_tags(file_contents)
if tag_code == 82)
p = code_tag.index(b'\0', 4) + 1
code_reader = io.BytesIO(code_tag[p:])
# Parse ABC (AVM2 ByteCode)
# Define a couple convenience methods
u30 = lambda *args: _u30(*args, reader=code_reader)
s32 = lambda *args: _s32(*args, reader=code_reader)
u32 = lambda *args: _u32(*args, reader=code_reader)
read_bytes = lambda *args: _read_bytes(*args, reader=code_reader)
read_byte = lambda *args: _read_byte(*args, reader=code_reader)
# minor_version + major_version
read_bytes(2 + 2)
# Constant pool
int_count = u30()
self.constant_ints = [0]
for _c in range(1, int_count):
self.constant_ints.append(s32())
self.constant_uints = [0]
uint_count = u30()
for _c in range(1, uint_count):
self.constant_uints.append(u32())
double_count = u30()
read_bytes(max(0, (double_count - 1)) * 8)
string_count = u30()
self.constant_strings = ['']
for _c in range(1, string_count):
s = _read_string(code_reader)
self.constant_strings.append(s)
namespace_count = u30()
for _c in range(1, namespace_count):
read_bytes(1) # kind
u30() # name
ns_set_count = u30()
for _c in range(1, ns_set_count):
count = u30()
for _c2 in range(count):
u30()
multiname_count = u30()
MULTINAME_SIZES = {
0x07: 2, # QName
0x0d: 2, # QNameA
0x0f: 1, # RTQName
0x10: 1, # RTQNameA
0x11: 0, # RTQNameL
0x12: 0, # RTQNameLA
0x09: 2, # Multiname
0x0e: 2, # MultinameA
0x1b: 1, # MultinameL
0x1c: 1, # MultinameLA
}
self.multinames = ['']
for _c in range(1, multiname_count):
kind = u30()
assert kind in MULTINAME_SIZES, 'Invalid multiname kind %r' % kind
if kind == 0x07:
u30() # namespace_idx
name_idx = u30()
self.multinames.append(self.constant_strings[name_idx])
elif kind == 0x09:
name_idx = u30()
u30()
self.multinames.append(self.constant_strings[name_idx])
else:
self.multinames.append(_Multiname(kind))
for _c2 in range(MULTINAME_SIZES[kind]):
u30()
# Methods
method_count = u30()
MethodInfo = collections.namedtuple(
'MethodInfo',
['NEED_ARGUMENTS', 'NEED_REST'])
method_infos = []
for method_id in range(method_count):
param_count = u30()
u30() # return type
for _ in range(param_count):
u30() # param type
u30() # name index (always 0 for youtube)
flags = read_byte()
if flags & 0x08 != 0:
# Options present
option_count = u30()
for c in range(option_count):
u30() # val
read_bytes(1) # kind
if flags & 0x80 != 0:
# Param names present
for _ in range(param_count):
u30() # param name
mi = MethodInfo(flags & 0x01 != 0, flags & 0x04 != 0)
method_infos.append(mi)
# Metadata
metadata_count = u30()
for _c in range(metadata_count):
u30() # name
item_count = u30()
for _c2 in range(item_count):
u30() # key
u30() # value
def parse_traits_info():
trait_name_idx = u30()
kind_full = read_byte()
kind = kind_full & 0x0f
attrs = kind_full >> 4
methods = {}
constants = None
if kind == 0x00: # Slot
u30() # Slot id
u30() # type_name_idx
vindex = u30()
if vindex != 0:
read_byte() # vkind
elif kind == 0x06: # Const
u30() # Slot id
u30() # type_name_idx
vindex = u30()
vkind = 'any'
if vindex != 0:
vkind = read_byte()
if vkind == 0x03: # Constant_Int
value = self.constant_ints[vindex]
elif vkind == 0x04: # Constant_UInt
value = self.constant_uints[vindex]
else:
return {}, None # Ignore silently for now
constants = {self.multinames[trait_name_idx]: value}
elif kind in (0x01, 0x02, 0x03): # Method / Getter / Setter
u30() # disp_id
method_idx = u30()
methods[self.multinames[trait_name_idx]] = method_idx
elif kind == 0x04: # Class
u30() # slot_id
u30() # classi
elif kind == 0x05: # Function
u30() # slot_id
function_idx = u30()
methods[function_idx] = self.multinames[trait_name_idx]
else:
raise ExtractorError('Unsupported trait kind %d' % kind)
if attrs & 0x4 != 0: # Metadata present
metadata_count = u30()
for _c3 in range(metadata_count):
u30() # metadata index
return methods, constants
# Classes
class_count = u30()
classes = []
for class_id in range(class_count):
name_idx = u30()
cname = self.multinames[name_idx]
avm_class = _AVMClass(name_idx, cname)
classes.append(avm_class)
u30() # super_name idx
flags = read_byte()
if flags & 0x08 != 0: # Protected namespace is present
u30() # protected_ns_idx
intrf_count = u30()
for _c2 in range(intrf_count):
u30()
u30() # iinit
trait_count = u30()
for _c2 in range(trait_count):
trait_methods, trait_constants = parse_traits_info()
avm_class.register_methods(trait_methods)
if trait_constants:
avm_class.constants.update(trait_constants)
assert len(classes) == class_count
self._classes_by_name = dict((c.name, c) for c in classes)
for avm_class in classes:
avm_class.cinit_idx = u30()
trait_count = u30()
for _c2 in range(trait_count):
trait_methods, trait_constants = parse_traits_info()
avm_class.register_methods(trait_methods)
if trait_constants:
avm_class.constants.update(trait_constants)
# Scripts
script_count = u30()
for _c in range(script_count):
u30() # init
trait_count = u30()
for _c2 in range(trait_count):
parse_traits_info()
# Method bodies
method_body_count = u30()
Method = collections.namedtuple('Method', ['code', 'local_count'])
self._all_methods = []
for _c in range(method_body_count):
method_idx = u30()
u30() # max_stack
local_count = u30()
u30() # init_scope_depth
u30() # max_scope_depth
code_length = u30()
code = read_bytes(code_length)
m = Method(code, local_count)
self._all_methods.append(m)
for avm_class in classes:
if method_idx in avm_class.method_idxs:
avm_class.methods[avm_class.method_idxs[method_idx]] = m
exception_count = u30()
for _c2 in range(exception_count):
u30() # from
u30() # to
u30() # target
u30() # exc_type
u30() # var_name
trait_count = u30()
for _c2 in range(trait_count):
parse_traits_info()
assert p + code_reader.tell() == len(code_tag)
def patch_function(self, avm_class, func_name, f):
self._patched_functions[(avm_class, func_name)] = f
def extract_class(self, class_name, call_cinit=True):
try:
res = self._classes_by_name[class_name]
except KeyError:
raise ExtractorError('Class %r not found' % class_name)
if call_cinit and hasattr(res, 'cinit_idx'):
res.register_methods({'$cinit': res.cinit_idx})
res.methods['$cinit'] = self._all_methods[res.cinit_idx]
cinit = self.extract_function(res, '$cinit')
cinit([])
return res
def extract_function(self, avm_class, func_name):
p = self._patched_functions.get((avm_class, func_name))
if p:
return p
if func_name in avm_class.method_pyfunctions:
return avm_class.method_pyfunctions[func_name]
if func_name in self._classes_by_name:
return self._classes_by_name[func_name].make_object()
if func_name not in avm_class.methods:
raise ExtractorError('Cannot find function %s.%s' % (
avm_class.name, func_name))
m = avm_class.methods[func_name]
def resfunc(args):
# Helper functions
coder = io.BytesIO(m.code)
s24 = lambda: _s24(coder)
u30 = lambda: _u30(coder)
registers = [avm_class.variables] + list(args) + [None] * m.local_count
stack = []
scopes = collections.deque([
self._classes_by_name, avm_class.constants, avm_class.variables])
while True:
opcode = _read_byte(coder)
if opcode == 9: # label
pass # Spec says: "Do nothing."
elif opcode == 16: # jump
offset = s24()
coder.seek(coder.tell() + offset)
elif opcode == 17: # iftrue
offset = s24()
value = stack.pop()
if value:
coder.seek(coder.tell() + offset)
elif opcode == 18: # iffalse
offset = s24()
value = stack.pop()
if not value:
coder.seek(coder.tell() + offset)
elif opcode == 19: # ifeq
offset = s24()
value2 = stack.pop()
value1 = stack.pop()
if value2 == value1:
coder.seek(coder.tell() + offset)
elif opcode == 20: # ifne
offset = s24()
value2 = stack.pop()
value1 = stack.pop()
if value2 != value1:
coder.seek(coder.tell() + offset)
elif opcode == 21: # iflt
offset = s24()
value2 = stack.pop()
value1 = stack.pop()
if value1 < value2:
coder.seek(coder.tell() + offset)
elif opcode == 32: # pushnull
stack.append(None)
elif opcode == 33: # pushundefined
stack.append(undefined)
elif opcode == 36: # pushbyte
v = _read_byte(coder)
stack.append(v)
elif opcode == 37: # pushshort
v = u30()
stack.append(v)
elif opcode == 38: # pushtrue
stack.append(True)
elif opcode == 39: # pushfalse
stack.append(False)
elif opcode == 40: # pushnan
stack.append(float('NaN'))
elif opcode == 42: # dup
value = stack[-1]
stack.append(value)
elif opcode == 44: # pushstring
idx = u30()
stack.append(self.constant_strings[idx])
elif opcode == 48: # pushscope
new_scope = stack.pop()
scopes.append(new_scope)
elif opcode == 66: # construct
arg_count = u30()
args = list(reversed(
[stack.pop() for _ in range(arg_count)]))
obj = stack.pop()
res = obj.avm_class.make_object()
stack.append(res)
elif opcode == 70: # callproperty
index = u30()
mname = self.multinames[index]
arg_count = u30()
args = list(reversed(
[stack.pop() for _ in range(arg_count)]))
obj = stack.pop()
if obj == StringClass:
if mname == 'String':
assert len(args) == 1
assert isinstance(args[0], (
int, compat_str, _Undefined))
if args[0] == undefined:
res = 'undefined'
else:
res = compat_str(args[0])
stack.append(res)
continue
else:
raise NotImplementedError(
'Function String.%s is not yet implemented'
% mname)
elif isinstance(obj, _AVMClass_Object):
func = self.extract_function(obj.avm_class, mname)
res = func(args)
stack.append(res)
continue
elif isinstance(obj, _AVMClass):
func = self.extract_function(obj, mname)
res = func(args)
stack.append(res)
continue
elif isinstance(obj, _ScopeDict):
if mname in obj.avm_class.method_names:
func = self.extract_function(obj.avm_class, mname)
res = func(args)
else:
res = obj[mname]
stack.append(res)
continue
elif isinstance(obj, compat_str):
if mname == 'split':
assert len(args) == 1
assert isinstance(args[0], compat_str)
if args[0] == '':
res = list(obj)
else:
res = obj.split(args[0])
stack.append(res)
continue
elif mname == 'charCodeAt':
assert len(args) <= 1
idx = 0 if len(args) == 0 else args[0]
assert isinstance(idx, int)
res = ord(obj[idx])
stack.append(res)
continue
elif isinstance(obj, list):
if mname == 'slice':
assert len(args) == 1
assert isinstance(args[0], int)
res = obj[args[0]:]
stack.append(res)
continue
elif mname == 'join':
assert len(args) == 1
assert isinstance(args[0], compat_str)
res = args[0].join(obj)
stack.append(res)
continue
raise NotImplementedError(
'Unsupported property %r on %r'
% (mname, obj))
elif opcode == 71: # returnvoid
res = undefined
return res
elif opcode == 72: # returnvalue
res = stack.pop()
return res
elif opcode == 73: # constructsuper
# Not yet implemented, just hope it works without it
arg_count = u30()
args = list(reversed(
[stack.pop() for _ in range(arg_count)]))
obj = stack.pop()
elif opcode == 74: # constructproperty
index = u30()
arg_count = u30()
args = list(reversed(
[stack.pop() for _ in range(arg_count)]))
obj = stack.pop()
mname = self.multinames[index]
assert isinstance(obj, _AVMClass)
# We do not actually call the constructor for now;
# we just pretend it does nothing
stack.append(obj.make_object())
elif opcode == 79: # callpropvoid
index = u30()
mname = self.multinames[index]
arg_count = u30()
args = list(reversed(
[stack.pop() for _ in range(arg_count)]))
obj = stack.pop()
if isinstance(obj, _AVMClass_Object):
func = self.extract_function(obj.avm_class, mname)
res = func(args)
assert res is undefined
continue
if isinstance(obj, _ScopeDict):
assert mname in obj.avm_class.method_names
func = self.extract_function(obj.avm_class, mname)
res = func(args)
assert res is undefined
continue
if mname == 'reverse':
assert isinstance(obj, list)
obj.reverse()
else:
raise NotImplementedError(
'Unsupported (void) property %r on %r'
% (mname, obj))
elif opcode == 86: # newarray
arg_count = u30()
arr = []
for i in range(arg_count):
arr.append(stack.pop())
arr = arr[::-1]
stack.append(arr)
elif opcode == 93: # findpropstrict
index = u30()
mname = self.multinames[index]
for s in reversed(scopes):
if mname in s:
res = s
break
else:
res = scopes[0]
if mname not in res and mname in _builtin_classes:
stack.append(_builtin_classes[mname])
else:
stack.append(res[mname])
elif opcode == 94: # findproperty
index = u30()
mname = self.multinames[index]
for s in reversed(scopes):
if mname in s:
res = s
break
else:
res = avm_class.variables
stack.append(res)
elif opcode == 96: # getlex
index = u30()
mname = self.multinames[index]
for s in reversed(scopes):
if mname in s:
scope = s
break
else:
scope = avm_class.variables
if mname in scope:
res = scope[mname]
elif mname in _builtin_classes:
res = _builtin_classes[mname]
else:
# Assume uninitialized
# TODO warn here
res = undefined
stack.append(res)
elif opcode == 97: # setproperty
index = u30()
value = stack.pop()
idx = self.multinames[index]
if isinstance(idx, _Multiname):
idx = stack.pop()
obj = stack.pop()
obj[idx] = value
elif opcode == 98: # getlocal
index = u30()
stack.append(registers[index])
elif opcode == 99: # setlocal
index = u30()
value = stack.pop()
registers[index] = value
elif opcode == 102: # getproperty
index = u30()
pname = self.multinames[index]
if pname == 'length':
obj = stack.pop()
assert isinstance(obj, (compat_str, list))
stack.append(len(obj))
elif isinstance(pname, compat_str): # Member access
obj = stack.pop()
if isinstance(obj, _AVMClass):
res = obj.static_properties[pname]
stack.append(res)
continue
assert isinstance(obj, (dict, _ScopeDict)), \
'Accessing member %r on %r' % (pname, obj)
res = obj.get(pname, undefined)
stack.append(res)
else: # Assume attribute access
idx = stack.pop()
assert isinstance(idx, int)
obj = stack.pop()
assert isinstance(obj, list)
stack.append(obj[idx])
elif opcode == 104: # initproperty
index = u30()
value = stack.pop()
idx = self.multinames[index]
if isinstance(idx, _Multiname):
idx = stack.pop()
obj = stack.pop()
obj[idx] = value
elif opcode == 115: # convert_
value = stack.pop()
intvalue = int(value)
stack.append(intvalue)
elif opcode == 128: # coerce
u30()
elif opcode == 130: # coerce_a
value = stack.pop()
# um, yes, it's any value
stack.append(value)
elif opcode == 133: # coerce_s
assert isinstance(stack[-1], (type(None), compat_str))
elif opcode == 147: # decrement
value = stack.pop()
assert isinstance(value, int)
stack.append(value - 1)
elif opcode == 149: # typeof
value = stack.pop()
return {
_Undefined: 'undefined',
compat_str: 'String',
int: 'Number',
float: 'Number',
}[type(value)]
elif opcode == 160: # add
value2 = stack.pop()
value1 = stack.pop()
res = value1 + value2
stack.append(res)
elif opcode == 161: # subtract
value2 = stack.pop()
value1 = stack.pop()
res = value1 - value2
stack.append(res)
elif opcode == 162: # multiply
value2 = stack.pop()
value1 = stack.pop()
res = value1 * value2
stack.append(res)
elif opcode == 164: # modulo
value2 = stack.pop()
value1 = stack.pop()
res = value1 % value2
stack.append(res)
elif opcode == 168: # bitand
value2 = stack.pop()
value1 = stack.pop()
assert isinstance(value1, int)
assert isinstance(value2, int)
res = value1 & value2
stack.append(res)
elif opcode == 171: # equals
value2 = stack.pop()
value1 = stack.pop()
result = value1 == value2
stack.append(result)
elif opcode == 175: # greaterequals
value2 = stack.pop()
value1 = stack.pop()
result = value1 >= value2
stack.append(result)
elif opcode == 192: # increment_i
value = stack.pop()
assert isinstance(value, int)
stack.append(value + 1)
elif opcode == 208: # getlocal_0
stack.append(registers[0])
elif opcode == 209: # getlocal_1
stack.append(registers[1])
elif opcode == 210: # getlocal_2
stack.append(registers[2])
elif opcode == 211: # getlocal_3
stack.append(registers[3])
elif opcode == 212: # setlocal_0
registers[0] = stack.pop()
elif opcode == 213: # setlocal_1
registers[1] = stack.pop()
elif opcode == 214: # setlocal_2
registers[2] = stack.pop()
elif opcode == 215: # setlocal_3
registers[3] = stack.pop()
else:
raise NotImplementedError(
'Unsupported opcode %d' % opcode)
avm_class.method_pyfunctions[func_name] = resfunc
return resfunc
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