ok
Direktori : /proc/self/root/proc/self/root/usr/lib/python2.7/site-packages/certbot/_internal/plugins/ |
Current File : //proc/self/root/proc/self/root/usr/lib/python2.7/site-packages/certbot/_internal/plugins/disco.py |
"""Utilities for plugins discovery and selection.""" import collections import itertools import logging import sys import pkg_resources import six import zope.interface import zope.interface.verify from acme.magic_typing import Dict from certbot import errors from certbot import interfaces from certbot._internal import constants from certbot.compat import os try: # Python 3.3+ from collections.abc import Mapping except ImportError: # pragma: no cover from collections import Mapping logger = logging.getLogger(__name__) PREFIX_FREE_DISTRIBUTIONS = [ "certbot", "certbot-apache", "certbot-dns-cloudflare", "certbot-dns-cloudxns", "certbot-dns-digitalocean", "certbot-dns-dnsimple", "certbot-dns-dnsmadeeasy", "certbot-dns-gehirn", "certbot-dns-google", "certbot-dns-linode", "certbot-dns-luadns", "certbot-dns-nsone", "certbot-dns-ovh", "certbot-dns-rfc2136", "certbot-dns-route53", "certbot-dns-sakuracloud", "certbot-nginx", ] """Distributions for which prefix will be omitted.""" class PluginEntryPoint(object): """Plugin entry point.""" # this object is mutable, don't allow it to be hashed! __hash__ = None # type: ignore def __init__(self, entry_point, with_prefix=False): self.name = self.entry_point_to_plugin_name(entry_point, with_prefix) self.plugin_cls = entry_point.load() self.entry_point = entry_point self.warning_message = None self._initialized = None self._prepared = None self._hidden = False self._long_description = None def check_name(self, name): """Check if the name refers to this plugin.""" if name == self.name: if self.warning_message: logger.warning(self.warning_message) return True return False @classmethod def entry_point_to_plugin_name(cls, entry_point, with_prefix): """Unique plugin name for an ``entry_point``""" if with_prefix: return entry_point.dist.key + ":" + entry_point.name return entry_point.name @property def description(self): """Description of the plugin.""" return self.plugin_cls.description @property def description_with_name(self): """Description with name. Handy for UI.""" return "{0} ({1})".format(self.description, self.name) @property def long_description(self): """Long description of the plugin.""" if self._long_description: return self._long_description try: return self.plugin_cls.long_description except AttributeError: return self.description @long_description.setter def long_description(self, description): self._long_description = description @property def hidden(self): """Should this plugin be hidden from UI?""" return self._hidden or getattr(self.plugin_cls, "hidden", False) @hidden.setter def hidden(self, hide): self._hidden = hide def ifaces(self, *ifaces_groups): """Does plugin implements specified interface groups?""" return not ifaces_groups or any( all(iface.implementedBy(self.plugin_cls) for iface in ifaces) for ifaces in ifaces_groups) @property def initialized(self): """Has the plugin been initialized already?""" return self._initialized is not None def init(self, config=None): """Memoized plugin initialization.""" if not self.initialized: self.entry_point.require() # fetch extras! self._initialized = self.plugin_cls(config, self.name) return self._initialized def verify(self, ifaces): """Verify that the plugin conforms to the specified interfaces.""" assert self.initialized for iface in ifaces: # zope.interface.providedBy(plugin) try: zope.interface.verify.verifyObject(iface, self.init()) except zope.interface.exceptions.BrokenImplementation as error: if iface.implementedBy(self.plugin_cls): logger.debug( "%s implements %s but object does not verify: %s", self.plugin_cls, iface.__name__, error, exc_info=True) return False return True @property def prepared(self): """Has the plugin been prepared already?""" if not self.initialized: logger.debug(".prepared called on uninitialized %r", self) return self._prepared is not None def prepare(self): """Memoized plugin preparation.""" assert self.initialized if self._prepared is None: try: self._initialized.prepare() except errors.MisconfigurationError as error: logger.debug("Misconfigured %r: %s", self, error, exc_info=True) self._prepared = error except errors.NoInstallationError as error: logger.debug( "No installation (%r): %s", self, error, exc_info=True) self._prepared = error except errors.PluginError as error: logger.debug("Other error:(%r): %s", self, error, exc_info=True) self._prepared = error else: self._prepared = True return self._prepared @property def misconfigured(self): """Is plugin misconfigured?""" return isinstance(self._prepared, errors.MisconfigurationError) @property def problem(self): """Return the Exception raised during plugin setup, or None if all is well""" if isinstance(self._prepared, Exception): return self._prepared return None @property def available(self): """Is plugin available, i.e. prepared or misconfigured?""" return self._prepared is True or self.misconfigured def __repr__(self): return "PluginEntryPoint#{0}".format(self.name) def __str__(self): lines = [ "* {0}".format(self.name), "Description: {0}".format(self.plugin_cls.description), "Interfaces: {0}".format(", ".join( iface.__name__ for iface in zope.interface.implementedBy( self.plugin_cls))), "Entry point: {0}".format(self.entry_point), ] if self.initialized: lines.append("Initialized: {0}".format(self.init())) if self.prepared: lines.append("Prep: {0}".format(self.prepare())) return "\n".join(lines) class PluginsRegistry(Mapping): """Plugins registry.""" def __init__(self, plugins): # plugins are sorted so the same order is used between runs. # This prevents deadlock caused by plugins acquiring a lock # and ensures at least one concurrent Certbot instance will run # successfully. self._plugins = collections.OrderedDict(sorted(six.iteritems(plugins))) @classmethod def find_all(cls): """Find plugins using setuptools entry points.""" plugins = {} # type: Dict[str, PluginEntryPoint] plugin_paths_string = os.getenv('CERTBOT_PLUGIN_PATH') plugin_paths = plugin_paths_string.split(':') if plugin_paths_string else [] # XXX should ensure this only happens once sys.path.extend(plugin_paths) for plugin_path in plugin_paths: pkg_resources.working_set.add_entry(plugin_path) entry_points = itertools.chain( pkg_resources.iter_entry_points( constants.SETUPTOOLS_PLUGINS_ENTRY_POINT), pkg_resources.iter_entry_points( constants.OLD_SETUPTOOLS_PLUGINS_ENTRY_POINT),) for entry_point in entry_points: plugin_ep = cls._load_entry_point(entry_point, plugins, with_prefix=False) # entry_point.dist cannot be None here, we would have blown up # earlier, however, this assertion is needed for mypy. assert entry_point.dist is not None if entry_point.dist.key not in PREFIX_FREE_DISTRIBUTIONS: prefixed_plugin_ep = cls._load_entry_point(entry_point, plugins, with_prefix=True) prefixed_plugin_ep.hidden = True message = ( "Plugin legacy name {0} may be removed in a future version. " "Please use {1} instead.").format(prefixed_plugin_ep.name, plugin_ep.name) prefixed_plugin_ep.warning_message = message prefixed_plugin_ep.long_description = "(WARNING: {0}) {1}".format( message, prefixed_plugin_ep.long_description) return cls(plugins) @classmethod def _load_entry_point(cls, entry_point, plugins, with_prefix): plugin_ep = PluginEntryPoint(entry_point, with_prefix) if plugin_ep.name in plugins: other_ep = plugins[plugin_ep.name] raise Exception("Duplicate plugin name {0} from {1} and {2}.".format( plugin_ep.name, plugin_ep.entry_point.dist.key, other_ep.entry_point.dist.key)) if interfaces.IPluginFactory.providedBy(plugin_ep.plugin_cls): plugins[plugin_ep.name] = plugin_ep else: # pragma: no cover logger.warning( "%r does not provide IPluginFactory, skipping", plugin_ep) return plugin_ep def __getitem__(self, name): return self._plugins[name] def __iter__(self): return iter(self._plugins) def __len__(self): return len(self._plugins) def init(self, config): """Initialize all plugins in the registry.""" return [plugin_ep.init(config) for plugin_ep in six.itervalues(self._plugins)] def filter(self, pred): """Filter plugins based on predicate.""" return type(self)({name: plugin_ep for name, plugin_ep in six.iteritems(self._plugins) if pred(plugin_ep)}) def visible(self): """Filter plugins based on visibility.""" return self.filter(lambda plugin_ep: not plugin_ep.hidden) def ifaces(self, *ifaces_groups): """Filter plugins based on interfaces.""" return self.filter(lambda p_ep: p_ep.ifaces(*ifaces_groups)) def verify(self, ifaces): """Filter plugins based on verification.""" return self.filter(lambda p_ep: p_ep.verify(ifaces)) def prepare(self): """Prepare all plugins in the registry.""" return [plugin_ep.prepare() for plugin_ep in six.itervalues(self._plugins)] def available(self): """Filter plugins based on availability.""" return self.filter(lambda p_ep: p_ep.available) # successfully prepared + misconfigured def find_init(self, plugin): """Find an initialized plugin. This is particularly useful for finding a name for the plugin (although `.IPluginFactory.__call__` takes ``name`` as one of the arguments, ``IPlugin.name`` is not part of the interface):: # plugin is an instance providing IPlugin, initialized # somewhere else in the code plugin_registry.find_init(plugin).name Returns ``None`` if ``plugin`` is not found in the registry. """ # use list instead of set because PluginEntryPoint is not hashable candidates = [plugin_ep for plugin_ep in six.itervalues(self._plugins) if plugin_ep.initialized and plugin_ep.init() is plugin] assert len(candidates) <= 1 if candidates: return candidates[0] return None def __repr__(self): return "{0}({1})".format( self.__class__.__name__, ','.join( repr(p_ep) for p_ep in six.itervalues(self._plugins))) def __str__(self): if not self._plugins: return "No plugins" return "\n\n".join(str(p_ep) for p_ep in six.itervalues(self._plugins))