def __get__(fget_self, obj, cls=None):
if cls is None:
if obj is None:
return fget_self
else:
cls = obj.__class__
if cls._binary is None:
raise ValueError('_binary was not specified.')
# Create a binary object
binary = find_binary(cls._binary, cls._srv_check)
# Create the function object
func = binary[identifier].make_function(
convention, args, return_type)
# Called with a this pointer?
if obj is not None:
# Wrap the function using MemberFunction, so we don't have
# to pass the this pointer anymore
func = MemberFunction(self, return_type, func, obj)
func.__doc__ = doc
return func
def get_offset(binary, identifier, offset, size=4, srv_check=True):
"""Return the offset."""
# Get the binary
if not isinstance(binary, BinaryFile):
binary = find_binary(binary, srv_check)
return getattr(binary.find_address(identifier),
'get_' + _unsinged_size_type[size])(offset)
def get_relative_pointer(binary, identifier, offset, size=4, srv_check=True):
"""Return the relative pointer."""
# Get the binary
if not isinstance(binary, BinaryFile):
binary = find_binary(binary, srv_check)
# Get the pointer
pointer = binary.find_address(identifier)
pointer += getattr(
pointer, 'get_' + _singed_size_type[size])(offset) + offset + size
return pointer
def get_pointer(binary, identifier, offset=0, level=0, srv_check=True):
"""Return the pointer."""
# Get the binary
if not isinstance(binary, BinaryFile):
binary = find_binary(binary, srv_check)
# Get the pointer
pointer = binary.find_pointer(identifier, offset, level)
# Raise an error if the pointer is invalid
if not pointer:
raise ValueError("Unable to find the pointer.")
return pointer
def global_pointer(
self, cls, binary, identifier, offset=0, level=0, srv_check=True):
"""Search for a global pointer and wrap the it."""
# Get the binary
binary = find_binary(binary, srv_check)
# Get the global pointer
ptr = binary.find_pointer(identifier, offset, level)
# Raise an error if the pointer is invalid
if not ptr:
raise ValueError('Unable to find the global pointer.')
# Wrap the pointer using the given class and save the instance
ptr = self.global_pointers[cls.__name__] = make_object(cls, ptr)
return ptr
def pipe_function(
self, binary, identifier, args=(), return_type=DataType.VOID,
convention=Convention.CDECL, srv_check=True, doc=None):
"""Create a simple pipe function."""
# Create a converter, if it's not a native type
if return_type not in DataType.values:
return_type = self.create_converter(return_type)
# Find the binary
binary = find_binary(binary, srv_check)
# Find the address and make it to a function
func = binary[identifier].make_function(convention, args, return_type)
# Add documentation
func.__doc__ = doc
return func
def __get__(fget_self, obj, cls):
if cls._binary is None:
raise ValueError('_binary was not specified.')
# Create a binary object
binary = find_binary(cls._binary, cls._srv_check)
# Create the function object
func = binary[identifier].make_function(
convention,
args,
return_type
)
# Called with a this pointer?
if obj is not None:
# Wrap the function using MemberFunction, so we don't have
# to pass the this pointer anymore
func = MemberFunction(self, return_type, func, obj)
func.__doc__ = doc
return func
def pipe_function(self,
binary,
identifier,
args=(),
return_type=DataType.VOID,
convention=Convention.CDECL,
srv_check=True,
doc=None):
"""Create a simple pipe function."""
# Create a converter, if it's not a native type
if return_type not in DataType.values:
return_type = self.create_converter(return_type)
# Find the binary
binary = find_binary(binary, srv_check)
# Find the address and make it to a function
func = binary[identifier].make_function(convention, args, return_type)
# Add documentation
func.__doc__ = doc
return func
def global_pointer(self,
cls,
binary,
identifier,
offset=0,
level=0,
srv_check=True):
"""Search for a global pointer and wrap the it."""
manager_logger.log_debug('Retrieving global pointer for {}...'.format(
cls.__name__))
# Get the binary
binary = find_binary(binary, srv_check)
# Get the global pointer
ptr = binary.find_pointer(identifier, offset, level)
# Raise an error if the pointer is invalid
if not ptr:
raise ValueError('Unable to find the global pointer.')
# Wrap the pointer using the given class and save the instance
ptr = self.global_pointers[cls.__name__] = make_object(cls, ptr)
return ptr
def load():
try:
server = memory.find_binary('server')
except:
print('[saveWeaponHook] find binary server failed!')
return
logging.basicConfig(filename='saveWeaponHook.log', format='%(asctime)s %(levelname)s %(message)s')
logging.info('plugin saveWeaponHook loaded.')
UTIL_KeyValues_SetString = server[identifier_KeyValues_SetString].make_function(
Convention.THISCALL,
(DataType.POINTER, DataType.STRING, DataType.STRING), # KeyValues::SetString(KeyValues *this, const char *s, const char *)
DataType.VOID
)
@PreHook(UTIL_KeyValues_SetString)
def _pre_keyvalues_set_string(args):
if args[1] == 'restoreSecondaryWeaponName':
logging.info('setting restoreSecondaryWeaponName')
args[2] = "weapon_pistol_magnum"
return
# args[2] may be not NUL-terminated
value = memory.helpers.Array(TypeManager, false, "char", args[2], 20)
weapon_name = args[2][:20] # not good enough
logging.info('server_srv.so!KeyValues::SetString({}, {}).'.format(args[1], weapon_name))
print('server_srv.so!KeyValues::SetString({}, {}).'.format(args[1], weapon_name))
if not weapon_name in secondaryWEaponName:
# sometimes value "weapon_chainsaw" occurres, could this crash the server?
logging.info('invalid restoreSecondaryWeaponName: {}, set to {}'.format(weapon_name, "weapon_pistol_magnum"))
print('invalid restoreSecondaryWeaponName: {}, set to {}'.format(weapon_name, "weapon_pistol_magnum")) # fallback value is "weapon_pistol_magnum"
args[2] = "weapon_pistol_magnum"
RE_DEFAULT = re.compile('#default', re.IGNORECASE)
RE_GREEN = re.compile('#green', re.IGNORECASE)
RE_LIGHTGREEN = re.compile('#lightgreen', re.IGNORECASE)
RE_DARKGREEN = re.compile('#darkgreen', re.IGNORECASE)
RE_MULTI = re.compile('#multi', re.IGNORECASE)
# =============================================================================
# >> GLOBAL VARIABLES
# =============================================================================
NO_SRV_CHECK_GAMES = [
'csgo'
]
if PLATFORM == 'windows':
clib = memory.find_binary('msvcrt.dll')
tier1 = memory.find_binary('bin/tier0')
else:
clib_path = find_library('c')
if clib_path is None:
raise ValueError('Unable to find C library.')
clib = memory.find_binary(clib_path, check_extension=False)
tier1 = memory.find_binary(
'bin/libtier0',
SOURCE_ENGINE_BRANCH not in NO_SRV_CHECK_GAMES)
sv_cheats = cvar.find_var('sv_cheats')
# =============================================================================
# =============================================================================
# >> GLOBAL VARIABLES
# =============================================================================
_data_file = GUNGAME_DATA_PATH / info.name + '.json'
with _data_file.open() as _open_file:
_data = json.load(_open_file).get(GAME_NAME, {}).get(PLATFORM, {})
if not _data:
raise NotImplementedError(
f'Game "{GAME_NAME}" on platform "{PLATFORM}" not currently supported'
)
if PLATFORM == 'windows':
for _key, _value in _data.items():
_data[_key] = binascii.unhexlify(_value.replace(' ', ''))
server = find_binary('server')
GetTeamNumber = server[_data['GetTeamNumber']].make_function(
Convention.THISCALL,
[DataType.POINTER],
DataType.INT,
)
InSameTeam = server[_data['InSameTeam']].make_function(
Convention.THISCALL,
[DataType.POINTER, DataType.POINTER],
DataType.BOOL,
)
OnAudibleEvent = server[_data['OnAudibleEvent']].make_function(
Convention.THISCALL,
def get_type_from_dict(raw_data, manager=manager):
type_dict = dict()
binary = raw_data.get(Key.BINARY, None)
if binary is not None:
binary = Key.as_str(manager, binary)
type_dict["_binary"] = binary
srv_check = raw_data.get(Key.SRV_CHECK, None)
if srv_check is not None:
srv_check = Key.as_bool(manager, srv_check)
type_dict["_srv_check"] = srv_check
else:
srv_check = True
size = raw_data.get(Key.SIZE, None)
if size is not None:
type_dict["_size"] = Key.as_int(manager, size)
# Prepare pointer and instance attributes
for method in (manager.instance_attribute, manager.pointer_attribute):
attributes = parse_data(
manager, raw_data.get(method.__name__, {}),
((Key.TYPE_NAME, Key.as_attribute_type, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT),
(Key.DOC, Key.as_str, None)))
# Create the attributes
for name, data in attributes:
type_dict[name] = method(*data)
# Prepare arrays
for method in (manager.static_instance_array,
manager.dynamic_instance_array,
manager.static_pointer_array,
manager.dynamic_pointer_array):
arrays = parse_data(
manager, raw_data.get(method.__name__, {}),
((Key.TYPE_NAME, Key.as_attribute_type, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT),
(Key.LENGTH, Key.as_int, None), (Key.DOC, Key.as_str, None)))
# Create the arrays
for name, data in arrays:
type_dict[name] = method(*data)
# Prepare virtual functions
vfuncs = parse_data(
manager, raw_data.get("virtual_function", {}),
((Key.OFFSET, Key.as_int, NO_DEFAULT), (Key.ARGS, Key.as_args_tuple,
()),
(Key.RETURN_TYPE, Key.as_return_type, DataType.VOID),
(Key.CONVENTION, Key.as_convention, Convention.THISCALL),
(Key.DOC, Key.as_str, None)))
# Create the virtual functions
for name, data in vfuncs:
type_dict[name] = manager.virtual_function(*data)
# Prepare functions
funcs = parse_data(
manager, raw_data.get("function", {}),
((Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.SRV_CHECK, Key.as_bool, srv_check),
(Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.ARGS, Key.as_args_tuple,
()), (Key.RETURN_TYPE, Key.as_return_type, DataType.VOID),
(Key.CONVENTION, Key.as_convention, Convention.THISCALL),
(Key.DOC, Key.as_str, None)))
# Create the functions
for name, data in funcs:
ptr = find_binary(*data[:2]).find_address(data[2])
type_dict[name] = manager.function_pointer(ptr, *data[3:])
# Via binary.
# Prepare binary attributes
attributes = parse_data(
manager, raw_data.get("binary_attribute", {}),
(("method", Key.as_str, "instance_attribute"),
(Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT), (Key.SIZE, Key.as_int, 4),
(Key.SRV_CHECK, Key.as_bool, srv_check),
(Key.TYPE_NAME, Key.as_attribute_type, NO_DEFAULT),
(Key.DOC, Key.as_str, None)))
# Create the attributes
for name, data in attributes:
method = getattr(manager, data[0])
offset = get_offset(*data[1:6])
type_dict[name] = method(data[6], offset, data[7])
# Prepare binary arrays
arrays = parse_data(
manager, raw_data.get("binary_array", {}),
(("method", Key.as_str, "static_instance_array"),
(Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT), (Key.SIZE, Key.as_int, 4),
(Key.SRV_CHECK, Key.as_bool, srv_check),
(Key.TYPE_NAME, Key.as_attribute_type, NO_DEFAULT),
(Key.LENGTH, Key.as_int, None), (Key.DOC, Key.as_str, None)))
# Create the arrays
for name, data in arrays:
method = getattr(manager, data[0])
offset = get_offset(*data[1:6])
type_dict[name] = method(data[6], offset, data[7], data[8])
# Prepare binary virtual functions
vfuncs = parse_data(
manager, raw_data.get("binary_virtual_function", {}),
((Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT), (Key.SIZE, Key.as_int, 4),
(Key.SRV_CHECK, Key.as_bool, srv_check), (Key.ARGS, Key.as_args_tuple,
()),
(Key.RETURN_TYPE, Key.as_return_type, DataType.VOID),
(Key.CONVENTION, Key.as_convention, Convention.THISCALL),
(Key.DOC, Key.as_str, None)))
# Create the virtual functions
for name, data in vfuncs:
index = get_offset(*data[:5]) // 4
type_dict[name] = manager.virtual_function(index, *data[5:])
# Prepare binary absolute functions
funcs = parse_data(
manager, raw_data.get("binary_absolute_function", {}),
((Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT), (Key.LEVEL, Key.as_int, 1),
(Key.SRV_CHECK, Key.as_bool, srv_check), (Key.ARGS, Key.as_args_tuple,
()),
(Key.RETURN_TYPE, Key.as_return_type, DataType.VOID),
(Key.CONVENTION, Key.as_convention, Convention.THISCALL),
(Key.DOC, Key.as_str, None)))
# Create the functions
for name, data in funcs:
ptr = get_pointer(*data[:5])
type_dict[name] = manager.function_pointer(ptr, *data[5:])
# Prepare binary relative functions
funcs = parse_data(
manager, raw_data.get("binary_relative_function", {}),
((Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT), (Key.SIZE, Key.as_int, 4),
(Key.SRV_CHECK, Key.as_bool, srv_check), (Key.ARGS, Key.as_args_tuple,
()),
(Key.RETURN_TYPE, Key.as_return_type, DataType.VOID),
(Key.CONVENTION, Key.as_convention, Convention.THISCALL),
(Key.DOC, Key.as_str, None)))
# Create the functions
for name, data in funcs:
ptr = get_relative_pointer(*data[:5])
type_dict[name] = manager.function_pointer(ptr, *data[5:])
# Prepare binary pointers
ptrs = parse_data(manager, raw_data.get("binary_pointer", {}),
((Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT),
(Key.LEVEL, Key.as_int, 0),
(Key.SRV_CHECK, Key.as_bool, srv_check)))
# Create the pointers
for name, data in ptrs:
type_dict[name] = get_pointer(*data)
return type_dict
def argument_ptr_changed(self, index, registers, arg_ptr):
pass
def get_return_ptr(self, registers):
pass
def return_ptr_changed(self, registers, return_ptr):
pass
# =============================================================================
# >> GLOBAL VARIABLES
# =============================================================================
MEMORY_PATH = PLRBOTS_DATA_PATH / 'memory'
server = memory.find_binary('server')
if PLATFORM == "windows":
_server_tools_interface = core.get_interface(
"tf/bin/server.dll", 'VSERVERTOOLS002')
else:
_server_tools_interface = core.get_interface(
"tf/bin/server_srv.so", 'VSERVERTOOLS002')
# =============================================================================
# >> CLASSES
# =============================================================================
class PLRTypeManager(TypeManager):
def function(
self, identifier, args=(), return_type=DataType.VOID,
COLOR_LIGHTGREEN = '\3'
COLOR_DARKGREEN = '\5'
RE_DEFAULT = re.compile('#default', re.IGNORECASE)
RE_GREEN = re.compile('#green', re.IGNORECASE)
RE_LIGHTGREEN = re.compile('#lightgreen', re.IGNORECASE)
RE_DARKGREEN = re.compile('#darkgreen', re.IGNORECASE)
RE_MULTI = re.compile('#multi', re.IGNORECASE)
# =============================================================================
# >> GLOBAL VARIABLES
# =============================================================================
NO_SRV_CHECK_GAMES = ['csgo']
if PLATFORM == 'windows':
clib = memory.find_binary('msvcrt.dll')
tier1 = memory.find_binary('bin/tier0')
else:
clib_path = find_library('c')
if clib_path is None:
raise ValueError('Unable to find C library.')
clib = memory.find_binary(clib_path, check_extension=False)
tier1 = memory.find_binary('bin/libtier0', SOURCE_ENGINE_BRANCH
not in NO_SRV_CHECK_GAMES)
sv_cheats = cvar.find_var('sv_cheats')
# =============================================================================
# >> ConVar structure for es.forcevalue()
# =============================================================================
if PLATFORM == 'windows':
# PLAYER HURT
ON_TAKE_DAMAGE_IDENTIFIER = b'\x55\x8B\xEC\x81\xEC\x44\x01\x2A\x2A\x56' \
b'\x89\x4D\xFC'
# RESTRICT
identifier = b'\x55\x8B\xEC\x83\xEC\x38\x89\x4D\xF4'
else:
# PLAYER HURT
ON_TAKE_DAMAGE_IDENTIFIER = '_ZN20CBaseCombatCharacter12OnTakeDamageERK15CTakeDamageInfo'
# RESTRICT
identifier = '_ZN9CCSPlayer10BumpWeaponEP17CBaseCombatWeapon'
# =============================================================================
# >> GLOBAL VARIABLES
# =============================================================================
server = find_binary('cstrike/bin/server')
OnTakeDamage = server[ON_TAKE_DAMAGE_IDENTIFIER].make_function(Convention.THISCALL, (DataType.POINTER, DataType.POINTER), DataType.VOID)
BUMP_WEAPON = server[identifier].make_function(Convention.THISCALL, (DataType.POINTER, DataType.POINTER), DataType.BOOL)
def get_data_from_dict(raw_data):
data_dict = dict()
binary = raw_data.get(Key.BINARY, None)
if binary is not None:
binary = Key.as_str(manager, binary)
srv_check = Key.as_bool(manager, raw_data.get(Key.SRV_CHECK, "True"))
for method_name in ("instance_attribute", "pointer_attribute",
"static_instance_array", "dynamic_instance_array",
"static_pointer_array", "dynamic_pointer_array",
"virtual_function"):
offsets_data = parse_data(manager, raw_data.get(method_name, {}),
((Key.OFFSET, Key.as_int, NO_DEFAULT), ))
for name, data in offsets_data:
data_dict[name] = data[0]
pointers_data = parse_data(manager, raw_data.get(
"function", {}), ((Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.SRV_CHECK, Key.as_bool, srv_check)))
for name, data in pointers_data:
data_dict[name] = find_binary(*data[1:]).find_address(data[0]).address
for method_name in ("binary_attribute", "binary_array"):
offsets_data = parse_data(
manager, raw_data.get(method_name, {}),
((Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT), (Key.SIZE, Key.as_int, 4),
(Key.SRV_CHECK, Key.as_bool, srv_check)))
for name, data in offsets_data:
data_dict[name] = get_offset(*data)
offsets_data = parse_data(manager,
raw_data.get("binary_virtual_function", {}),
((Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT),
(Key.SIZE, Key.as_int, 4),
(Key.SRV_CHECK, Key.as_bool, srv_check)))
for name, data in offsets_data:
data_dict[name] = get_offset(*data) // 4
pointers_data = parse_data(
manager, raw_data.get("binary_absolute_function", {}),
((Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT), (Key.LEVEL, Key.as_int, 1),
(Key.SRV_CHECK, Key.as_bool, srv_check)))
for name, data in pointers_data:
data_dict[name] = get_pointer(*data).address
pointers_data = parse_data(
manager, raw_data.get("binary_relative_function", {}),
((Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT), (Key.SIZE, Key.as_int, 4),
(Key.SRV_CHECK, Key.as_bool, srv_check)))
for name, data in pointers_data:
data_dict[name] = get_relative_pointer(*data).address
pointers_data = parse_data(
manager, raw_data.get("binary_pointer", {}),
((Key.BINARY, Key.as_str,
binary if binary is not None else NO_DEFAULT),
(Key.IDENTIFIER, Key.as_identifier, NO_DEFAULT),
(Key.OFFSET, Key.as_int, NO_DEFAULT), (Key.LEVEL, Key.as_int, 0),
(Key.SRV_CHECK, Key.as_bool, srv_check)))
for name, data in pointers_data:
data_dict[name] = get_pointer(*data).address
return data_dict
