""" This module manages and invokes typed commands. """ import functools import inspect import logging import sys import textwrap import types from collections.abc import Callable from collections.abc import Iterable from collections.abc import Sequence from typing import Any from typing import NamedTuple import pyparsing import mitmproxy.types from mitmproxy import command_lexer from mitmproxy import exceptions from mitmproxy.command_lexer import unquote def verify_arg_signature(f: Callable, args: Iterable[Any], kwargs: dict) -> None: sig = inspect.signature(f, eval_str=True) try: sig.bind(*args, **kwargs) except TypeError as v: raise exceptions.CommandError("command argument mismatch: %s" % v.args[0]) def typename(t: type) -> str: """ Translates a type to an explanatory string. """ if t == inspect._empty: # type: ignore raise exceptions.CommandError("missing type annotation") to = mitmproxy.types.CommandTypes.get(t, None) if not to: raise exceptions.CommandError( "unsupported type: %s" % getattr(t, "__name__", t) ) return to.display def _empty_as_none(x: Any) -> Any: if x == inspect.Signature.empty: return None return x class CommandParameter(NamedTuple): name: str type: type kind: inspect._ParameterKind = inspect.Parameter.POSITIONAL_OR_KEYWORD def __str__(self): if self.kind is inspect.Parameter.VAR_POSITIONAL: return f"*{self.name}" else: return self.name class Command: name: str manager: "CommandManager" signature: inspect.Signature help: str | None def __init__(self, manager: "CommandManager", name: str, func: Callable) -> None: self.name = name self.manager = manager self.func = func self.signature = inspect.signature(self.func, eval_str=True) if func.__doc__: txt = func.__doc__.strip() self.help = "\n".join(textwrap.wrap(txt)) else: self.help = None # This fails with a CommandException if types are invalid for name, parameter in self.signature.parameters.items(): t = parameter.annotation if not mitmproxy.types.CommandTypes.get(parameter.annotation, None): raise exceptions.CommandError( f"Argument {name} has an unknown type {t} in {func}." ) if self.return_type and not mitmproxy.types.CommandTypes.get( self.return_type, None ): raise exceptions.CommandError( f"Return type has an unknown type ({self.return_type}) in {func}." ) @property def return_type(self) -> type | None: return _empty_as_none(self.signature.return_annotation) @property def parameters(self) -> list[CommandParameter]: """Returns a list of CommandParameters.""" ret = [] for name, param in self.signature.parameters.items(): ret.append(CommandParameter(name, param.annotation, param.kind)) return ret def signature_help(self) -> str: params = " ".join(str(param) for param in self.parameters) if self.return_type: ret = f" -> {typename(self.return_type)}" else: ret = "" return f"{self.name} {params}{ret}" def prepare_args(self, args: Sequence[str]) -> inspect.BoundArguments: try: bound_arguments = self.signature.bind(*args) except TypeError: expected = f"Expected: {str(self.signature.parameters)}" received = f"Received: {str(args)}" raise exceptions.CommandError( f"Command argument mismatch: \n {expected}\n {received}" ) for name, value in bound_arguments.arguments.items(): param = self.signature.parameters[name] convert_to = param.annotation if param.kind == param.VAR_POSITIONAL: bound_arguments.arguments[name] = tuple( parsearg(self.manager, x, convert_to) for x in value ) else: bound_arguments.arguments[name] = parsearg( self.manager, value, convert_to ) bound_arguments.apply_defaults() return bound_arguments def call(self, args: Sequence[str]) -> Any: """ Call the command with a list of arguments. At this point, all arguments are strings. """ bound_args = self.prepare_args(args) ret = self.func(*bound_args.args, **bound_args.kwargs) if ret is None and self.return_type is None: return typ = mitmproxy.types.CommandTypes.get(self.return_type) assert typ if not typ.is_valid(self.manager, typ, ret): raise exceptions.CommandError( f"{self.name} returned unexpected data - expected {typ.display}" ) return ret class ParseResult(NamedTuple): value: str type: type valid: bool class CommandManager: commands: dict[str, Command] def __init__(self, master): self.master = master self.commands = {} def collect_commands(self, addon): for i in dir(addon): if not i.startswith("__"): o = getattr(addon, i) try: # hasattr is not enough, see https://github.com/mitmproxy/mitmproxy/issues/3794 is_command = isinstance(getattr(o, "command_name", None), str) except Exception: pass # getattr may raise if o implements __getattr__. else: if is_command: try: self.add(o.command_name, o) except exceptions.CommandError as e: logging.warning( f"Could not load command {o.command_name}: {e}" ) def add(self, path: str, func: Callable): self.commands[path] = Command(self, path, func) @functools.lru_cache(maxsize=128) def parse_partial( self, cmdstr: str ) -> tuple[Sequence[ParseResult], Sequence[CommandParameter]]: """ Parse a possibly partial command. Return a sequence of ParseResults and a sequence of remainder type help items. """ parts: pyparsing.ParseResults = command_lexer.expr.parseString( cmdstr, parseAll=True ) parsed: list[ParseResult] = [] next_params: list[CommandParameter] = [ CommandParameter("", mitmproxy.types.Cmd), CommandParameter("", mitmproxy.types.CmdArgs), ] expected: CommandParameter | None = None for part in parts: if part.isspace(): parsed.append( ParseResult( value=part, type=mitmproxy.types.Space, valid=True, ) ) continue if expected and expected.kind is inspect.Parameter.VAR_POSITIONAL: assert not next_params elif next_params: expected = next_params.pop(0) else: expected = CommandParameter("", mitmproxy.types.Unknown) arg_is_known_command = ( expected.type == mitmproxy.types.Cmd and part in self.commands ) arg_is_unknown_command = ( expected.type == mitmproxy.types.Cmd and part not in self.commands ) command_args_following = ( next_params and next_params[0].type == mitmproxy.types.CmdArgs ) if arg_is_known_command and command_args_following: next_params = self.commands[part].parameters + next_params[1:] if arg_is_unknown_command and command_args_following: next_params.pop(0) to = mitmproxy.types.CommandTypes.get(expected.type, None) valid = False if to: try: to.parse(self, expected.type, part) except ValueError: valid = False else: valid = True parsed.append( ParseResult( value=part, type=expected.type, valid=valid, ) ) return parsed, next_params def call(self, command_name: str, *args: Any) -> Any: """ Call a command with native arguments. May raise CommandError. """ if command_name not in self.commands: raise exceptions.CommandError("Unknown command: %s" % command_name) return self.commands[command_name].func(*args) def call_strings(self, command_name: str, args: Sequence[str]) -> Any: """ Call a command using a list of string arguments. May raise CommandError. """ if command_name not in self.commands: raise exceptions.CommandError("Unknown command: %s" % command_name) return self.commands[command_name].call(args) def execute(self, cmdstr: str) -> Any: """ Execute a command string. May raise CommandError. """ parts, _ = self.parse_partial(cmdstr) if not parts: raise exceptions.CommandError(f"Invalid command: {cmdstr!r}") command_name, *args = ( unquote(part.value) for part in parts if part.type != mitmproxy.types.Space ) return self.call_strings(command_name, args) def dump(self, out=sys.stdout) -> None: cmds = list(self.commands.values()) cmds.sort(key=lambda x: x.signature_help()) for c in cmds: for hl in (c.help or "").splitlines(): print("# " + hl, file=out) print(c.signature_help(), file=out) print(file=out) def parsearg(manager: CommandManager, spec: str, argtype: type) -> Any: """ Convert a string to a argument to the appropriate type. """ t = mitmproxy.types.CommandTypes.get(argtype, None) if not t: raise exceptions.CommandError(f"Unsupported argument type: {argtype}") try: return t.parse(manager, argtype, spec) except ValueError as e: raise exceptions.CommandError(str(e)) from e def command(name: str | None = None): def decorator(function): @functools.wraps(function) def wrapper(*args, **kwargs): verify_arg_signature(function, args, kwargs) return function(*args, **kwargs) wrapper.__dict__["command_name"] = name or function.__name__.replace("_", ".") return wrapper return decorator def argument(name, type): """ Set the type of a command argument at runtime. This is useful for more specific types such as mitmproxy.types.Choice, which we cannot annotate directly as mypy does not like that. """ def decorator(f: types.FunctionType) -> types.FunctionType: assert name in f.__annotations__ f.__annotations__[name] = type return f return decorator