# This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at http://mozilla.org/MPL/2.0/. from __future__ import absolute_import, unicode_literals import argparse import collections import inspect import os import types from .base import MachError from .registrar import Registrar class _MachCommand(object): """Container for mach command metadata. Mach commands contain lots of attributes. This class exists to capture them in a sane way so tuples, etc aren't used instead. """ __slots__ = ( # Content from decorator arguments to define the command. 'name', 'subcommand', 'category', 'description', 'conditions', '_parser', 'arguments', 'argument_group_names', # Describes how dispatch is performed. # The Python class providing the command. This is the class type not # an instance of the class. Mach will instantiate a new instance of # the class if the command is executed. 'cls', # Whether the __init__ method of the class should receive a mach # context instance. This should only affect the mach driver and how # it instantiates classes. 'pass_context', # The name of the method providing the command. In other words, this # is the str name of the attribute on the class type corresponding to # the name of the function. 'method', # Dict of string to _MachCommand defining sub-commands for this # command. 'subcommand_handlers', ) def __init__(self, name=None, subcommand=None, category=None, description=None, conditions=None, parser=None): self.name = name self.subcommand = subcommand self.category = category self.description = description self.conditions = conditions or [] self._parser = parser self.arguments = [] self.argument_group_names = [] self.cls = None self.pass_context = None self.method = None self.subcommand_handlers = {} @property def parser(self): # Creating CLI parsers at command dispatch time can be expensive. Make # it possible to lazy load them by using functions. if callable(self._parser): self._parser = self._parser() return self._parser @property def docstring(self): return self.cls.__dict__[self.method].__doc__ def __ior__(self, other): if not isinstance(other, _MachCommand): raise ValueError('can only operate on _MachCommand instances') for a in self.__slots__: if not getattr(self, a): setattr(self, a, getattr(other, a)) return self def CommandProvider(cls): """Class decorator to denote that it provides subcommands for Mach. When this decorator is present, mach looks for commands being defined by methods inside the class. """ # The implementation of this decorator relies on the parse-time behavior of # decorators. When the module is imported, the method decorators (like # @Command and @CommandArgument) are called *before* this class decorator. # The side-effect of the method decorators is to store specifically-named # attributes on the function types. We just scan over all functions in the # class looking for the side-effects of the method decorators. # Tell mach driver whether to pass context argument to __init__. pass_context = False if inspect.ismethod(cls.__init__): spec = inspect.getargspec(cls.__init__) if len(spec.args) > 2: msg = 'Mach @CommandProvider class %s implemented incorrectly. ' + \ '__init__() must take 1 or 2 arguments. From %s' msg = msg % (cls.__name__, inspect.getsourcefile(cls)) raise MachError(msg) if len(spec.args) == 2: pass_context = True seen_commands = set() # We scan __dict__ because we only care about the classes own attributes, # not inherited ones. If we did inherited attributes, we could potentially # define commands multiple times. We also sort keys so commands defined in # the same class are grouped in a sane order. for attr in sorted(cls.__dict__.keys()): value = cls.__dict__[attr] if not isinstance(value, types.FunctionType): continue command = getattr(value, '_mach_command', None) if not command: continue # Ignore subcommands for now: we handle them later. if command.subcommand: continue seen_commands.add(command.name) if not command.conditions and Registrar.require_conditions: continue msg = 'Mach command \'%s\' implemented incorrectly. ' + \ 'Conditions argument must take a list ' + \ 'of functions. Found %s instead.' if not isinstance(command.conditions, collections.Iterable): msg = msg % (command.name, type(command.conditions)) raise MachError(msg) for c in command.conditions: if not hasattr(c, '__call__'): msg = msg % (command.name, type(c)) raise MachError(msg) command.cls = cls command.method = attr command.pass_context = pass_context Registrar.register_command_handler(command) # Now do another pass to get sub-commands. We do this in two passes so # we can check the parent command existence without having to hold # state and reconcile after traversal. for attr in sorted(cls.__dict__.keys()): value = cls.__dict__[attr] if not isinstance(value, types.FunctionType): continue command = getattr(value, '_mach_command', None) if not command: continue # It is a regular command. if not command.subcommand: continue if command.name not in seen_commands: raise MachError('Command referenced by sub-command does not ' 'exist: %s' % command.name) if command.name not in Registrar.command_handlers: continue command.cls = cls command.method = attr command.pass_context = pass_context parent = Registrar.command_handlers[command.name] if parent._parser: raise MachError('cannot declare sub commands against a command ' 'that has a parser installed: %s' % command) if command.subcommand in parent.subcommand_handlers: raise MachError('sub-command already defined: %s' % command.subcommand) parent.subcommand_handlers[command.subcommand] = command return cls class Command(object): """Decorator for functions or methods that provide a mach command. The decorator accepts arguments that define basic attributes of the command. The following arguments are recognized: category -- The string category to which this command belongs. Mach's help will group commands by category. description -- A brief description of what the command does. parser -- an optional argparse.ArgumentParser instance or callable that returns an argparse.ArgumentParser instance to use as the basis for the command arguments. For example: @Command('foo', category='misc', description='Run the foo action') def foo(self): pass """ def __init__(self, name, **kwargs): self._mach_command = _MachCommand(name=name, **kwargs) def __call__(self, func): if not hasattr(func, '_mach_command'): func._mach_command = _MachCommand() func._mach_command |= self._mach_command return func class SubCommand(object): """Decorator for functions or methods that provide a sub-command. Mach commands can have sub-commands. e.g. ``mach command foo`` or ``mach command bar``. Each sub-command has its own parser and is effectively its own mach command. The decorator accepts arguments that define basic attributes of the sub command: command -- The string of the command this sub command should be attached to. subcommand -- The string name of the sub command to register. description -- A textual description for this sub command. """ def __init__(self, command, subcommand, description=None): self._mach_command = _MachCommand(name=command, subcommand=subcommand, description=description) def __call__(self, func): if not hasattr(func, '_mach_command'): func._mach_command = _MachCommand() func._mach_command |= self._mach_command return func class CommandArgument(object): """Decorator for additional arguments to mach subcommands. This decorator should be used to add arguments to mach commands. Arguments to the decorator are proxied to ArgumentParser.add_argument(). For example: @Command('foo', help='Run the foo action') @CommandArgument('-b', '--bar', action='store_true', default=False, help='Enable bar mode.') def foo(self): pass """ def __init__(self, *args, **kwargs): if kwargs.get('nargs') == argparse.REMAINDER: # These are the assertions we make in dispatcher.py about # those types of CommandArguments. assert len(args) == 1 assert all(k in ('default', 'nargs', 'help', 'group') for k in kwargs) self._command_args = (args, kwargs) def __call__(self, func): if not hasattr(func, '_mach_command'): func._mach_command = _MachCommand() func._mach_command.arguments.insert(0, self._command_args) return func class CommandArgumentGroup(object): """Decorator for additional argument groups to mach commands. This decorator should be used to add arguments groups to mach commands. Arguments to the decorator are proxied to ArgumentParser.add_argument_group(). For example: @Command('foo', helps='Run the foo action') @CommandArgumentGroup('group1') @CommandArgument('-b', '--bar', group='group1', action='store_true', default=False, help='Enable bar mode.') def foo(self): pass The name should be chosen so that it makes sense as part of the phrase 'Command Arguments for ' because that's how it will be shown in the help message. """ def __init__(self, group_name): self._group_name = group_name def __call__(self, func): if not hasattr(func, '_mach_command'): func._mach_command = _MachCommand() func._mach_command.argument_group_names.insert(0, self._group_name) return func def SettingsProvider(cls): """Class decorator to denote that this class provides Mach settings. When this decorator is encountered, the underlying class will automatically be registered with the Mach registrar and will (likely) be hooked up to the mach driver. """ if not hasattr(cls, 'config_settings'): raise MachError('@SettingsProvider must contain a config_settings attribute. It ' 'may either be a list of tuples, or a callable that returns a list ' 'of tuples. Each tuple must be of the form:\n' '(
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