import contextlib import copy import functools import pprint import textwrap import typing import blinker import blinker._saferef from seleniumwire.thirdparty.mitmproxy import exceptions from seleniumwire.thirdparty.mitmproxy.utils import typecheck """ The base implementation for Options. """ unset = object() class _Option: __slots__ = ("name", "typespec", "value", "_default", "choices", "help") def __init__( self, name: str, typespec: typing.Union[type, object], # object for Optional[x], which is not a type. default: typing.Any, help: str, choices: typing.Optional[typing.Sequence[str]] ) -> None: typecheck.check_option_type(name, default, typespec) self.name = name self.typespec = typespec self._default = default self.value = unset self.help = textwrap.dedent(help).strip().replace("\n", " ") self.choices = choices def __repr__(self): return "{value} [{type}]".format(value=self.current(), type=self.typespec) @property def default(self): return copy.deepcopy(self._default) def current(self) -> typing.Any: if self.value is unset: v = self.default else: v = self.value return copy.deepcopy(v) def set(self, value: typing.Any) -> None: typecheck.check_option_type(self.name, value, self.typespec) self.value = value def reset(self) -> None: self.value = unset def has_changed(self) -> bool: return self.current() != self.default def __eq__(self, other) -> bool: for i in self.__slots__: if getattr(self, i) != getattr(other, i): return False return True def __deepcopy__(self, _): o = _Option( self.name, self.typespec, self.default, self.help, self.choices ) if self.has_changed(): o.value = self.current() return o class OptManager: """ OptManager is the base class from which Options objects are derived. .changed is a blinker Signal that triggers whenever options are updated. If any handler in the chain raises an exceptions.OptionsError exception, all changes are rolled back, the exception is suppressed, and the .errored signal is notified. Optmanager always returns a deep copy of options to ensure that mutation doesn't change the option state inadvertently. """ def __init__(self): self.deferred: typing.Dict[str, str] = {} self.changed = blinker.Signal() self.errored = blinker.Signal() # Options must be the last attribute here - after that, we raise an # error for attribute assigment to unknown options. self._options: typing.Dict[str, typing.Any] = {} def add_option( self, name: str, typespec: typing.Union[type, object], default: typing.Any, help: str, choices: typing.Optional[typing.Sequence[str]] = None ) -> None: self._options[name] = _Option(name, typespec, default, help, choices) self.changed.send(self, updated={name}) @contextlib.contextmanager def rollback(self, updated, reraise=False): old = copy.deepcopy(self._options) try: yield except exceptions.OptionsError as e: # Notify error handlers self.errored.send(self, exc=e) # Rollback self.__dict__["_options"] = old self.changed.send(self, updated=updated) if reraise: raise e def subscribe(self, func, opts): """ Subscribe a callable to the .changed signal, but only for a specified list of options. The callable should accept arguments (options, updated), and may raise an OptionsError. The event will automatically be unsubscribed if the callable goes out of scope. """ for i in opts: if i not in self._options: raise exceptions.OptionsError("No such option: %s" % i) # We reuse blinker's safe reference functionality to cope with weakrefs # to bound methods. func = blinker._saferef.safe_ref(func) @functools.wraps(func) def _call(options, updated): if updated.intersection(set(opts)): f = func() if f: f(options, updated) else: self.changed.disconnect(_call) # Our wrapper function goes out of scope immediately, so we have to set # weakrefs to false. This means we need to keep our own weakref, and # clean up the hook when it's gone. self.changed.connect(_call, weak=False) def __eq__(self, other): if isinstance(other, OptManager): return self._options == other._options return False def __deepcopy__(self, memodict = None): o = OptManager() o.__dict__["_options"] = copy.deepcopy(self._options, memodict) return o __copy__ = __deepcopy__ def __getattr__(self, attr): if attr in self._options: return self._options[attr].current() else: raise AttributeError("No such option: %s" % attr) def __setattr__(self, attr, value): # This is slightly tricky. We allow attributes to be set on the instance # until we have an _options attribute. After that, assignment is sent to # the update function, and will raise an error for unknown options. opts = self.__dict__.get("_options") if not opts: super().__setattr__(attr, value) else: self.update(**{attr: value}) def keys(self): return set(self._options.keys()) def items(self): return self._options.items() def __contains__(self, k): return k in self._options def reset(self): """ Restore defaults for all options. """ for o in self._options.values(): o.reset() self.changed.send(self, updated=set(self._options.keys())) def update_known(self, **kwargs): """ Update and set all known options from kwargs. Returns a dictionary of unknown options. """ known, unknown = {}, {} for k, v in kwargs.items(): if k in self._options: known[k] = v else: unknown[k] = v updated = set(known.keys()) if updated: with self.rollback(updated, reraise=True): for k, v in known.items(): self._options[k].set(v) self.changed.send(self, updated=updated) return unknown def update_defer(self, **kwargs): unknown = self.update_known(**kwargs) self.deferred.update(unknown) def update(self, **kwargs): u = self.update_known(**kwargs) if u: raise KeyError("Unknown options: %s" % ", ".join(u.keys())) def setter(self, attr): """ Generate a setter for a given attribute. This returns a callable taking a single argument. """ if attr not in self._options: raise KeyError("No such option: %s" % attr) def setter(x): setattr(self, attr, x) return setter def toggler(self, attr): """ Generate a toggler for a boolean attribute. This returns a callable that takes no arguments. """ if attr not in self._options: raise KeyError("No such option: %s" % attr) o = self._options[attr] if o.typespec != bool: raise ValueError("Toggler can only be used with boolean options") def toggle(): setattr(self, attr, not getattr(self, attr)) return toggle def default(self, option: str) -> typing.Any: return self._options[option].default def has_changed(self, option): """ Has the option changed from the default? """ return self._options[option].has_changed() def merge(self, opts): """ Merge a dict of options into this object. Options that have None value are ignored. Lists and tuples are appended to the current option value. """ toset = {} for k, v in opts.items(): if v is not None: if isinstance(v, (list, tuple)): toset[k] = getattr(self, k) + v else: toset[k] = v self.update(**toset) def __repr__(self): options = pprint.pformat(self._options, indent=4).strip(" {}") if "\n" in options: options = "\n " + options + "\n" return "{mod}.{cls}({{{options}}})".format( mod=type(self).__module__, cls=type(self).__name__, options=options ) def set(self, *spec, defer=False): """ Takes a list of set specification in standard form (option=value). Options that are known are updated immediately. If defer is true, options that are not known are deferred, and will be set once they are added. """ vals = {} unknown = {} for i in spec: parts = i.split("=", maxsplit=1) if len(parts) == 1: optname, optval = parts[0], None else: optname, optval = parts[0], parts[1] if optname in self._options: vals[optname] = self.parse_setval(self._options[optname], optval) else: unknown[optname] = optval if defer: self.deferred.update(unknown) elif unknown: raise exceptions.OptionsError("Unknown options: %s" % ", ".join(unknown.keys())) self.update(**vals) def process_deferred(self): """ Processes options that were deferred in previous calls to set, and have since been added. """ update = {} for optname, optval in self.deferred.items(): if optname in self._options: optval = self.parse_setval(self._options[optname], optval) update[optname] = optval self.update(**update) for k in update.keys(): del self.deferred[k] def parse_setval(self, o: _Option, optstr: typing.Optional[str]) -> typing.Any: """ Convert a string to a value appropriate for the option type. """ if o.typespec in (str, typing.Optional[str]): return optstr elif o.typespec in (int, typing.Optional[int]): if optstr: try: return int(optstr) except ValueError: raise exceptions.OptionsError("Not an integer: %s" % optstr) elif o.typespec == int: raise exceptions.OptionsError("Option is required: %s" % o.name) else: return None elif o.typespec == bool: if optstr == "toggle": return not o.current() if not optstr or optstr == "true": return True elif optstr == "false": return False else: raise exceptions.OptionsError( "Boolean must be \"true\", \"false\", or have the value " "omitted (a synonym for \"true\")." ) elif o.typespec == typing.Sequence[str]: if not optstr: return [] else: return getattr(self, o.name) + [optstr] raise NotImplementedError("Unsupported option type: %s", o.typespec) def make_parser(self, parser, optname, metavar=None, short=None): """ Auto-Create a command-line parser entry for a named option. If the option does not exist, it is ignored. """ if optname not in self._options: return o = self._options[optname] def mkf(l, s): l = l.replace("_", "-") f = ["--%s" % l] if s: f.append("-" + s) return f flags = mkf(optname, short) if o.typespec == bool: g = parser.add_mutually_exclusive_group(required=False) onf = mkf(optname, None) offf = mkf("no-" + optname, None) # The short option for a bool goes to whatever is NOT the default if short: if o.default: offf = mkf("no-" + optname, short) else: onf = mkf(optname, short) g.add_argument( *offf, action="store_false", dest=optname, ) g.add_argument( *onf, action="store_true", dest=optname, help=o.help ) parser.set_defaults(**{optname: None}) elif o.typespec in (int, typing.Optional[int]): parser.add_argument( *flags, action="store", type=int, dest=optname, help=o.help, metavar=metavar, ) elif o.typespec in (str, typing.Optional[str]): parser.add_argument( *flags, action="store", type=str, dest=optname, help=o.help, metavar=metavar, choices=o.choices ) elif o.typespec == typing.Sequence[str]: parser.add_argument( *flags, action="append", type=str, dest=optname, help=o.help + " May be passed multiple times.", metavar=metavar, choices=o.choices, ) else: raise ValueError("Unsupported option type: %s", o.typespec) def dump_dicts(opts, keys: typing.List[str]=None): """ Dumps the options into a list of dict object. Return: A list like: { "anticache": { type: "bool", default: false, value: true, help: "help text"} } """ options_dict = {} keys = keys if keys else opts.keys() for k in sorted(keys): o = opts._options[k] t = typecheck.typespec_to_str(o.typespec) option = { 'type': t, 'default': o.default, 'value': o.current(), 'help': o.help, 'choices': o.choices } options_dict[k] = option return options_dict