# (c) 2014, Michael DeHaan # (c) 2018, Ansible Project # # This file is part of Ansible # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see . from __future__ import (absolute_import, division, print_function) __metaclass__ = type import copy import os import time import errno from abc import ABCMeta, abstractmethod from ansible import constants as C from ansible.errors import AnsibleError from ansible.module_utils.six import with_metaclass from ansible.module_utils._text import to_bytes, to_text from ansible.module_utils.common._collections_compat import MutableMapping from ansible.plugins import AnsiblePlugin from ansible.plugins.loader import cache_loader from ansible.utils.collection_loader import resource_from_fqcr from ansible.utils.display import Display display = Display() class BaseCacheModule(AnsiblePlugin): # Backwards compat only. Just import the global display instead _display = display def __init__(self, *args, **kwargs): # Third party code is not using cache_loader to load plugin - fall back to previous behavior if not hasattr(self, '_load_name'): display.deprecated('Rather than importing custom CacheModules directly, use ansible.plugins.loader.cache_loader', version='2.14', collection_name='ansible.builtin') self._load_name = self.__module__.split('.')[-1] self._load_name = resource_from_fqcr(self.__module__) super(BaseCacheModule, self).__init__() self.set_options(var_options=args, direct=kwargs) @abstractmethod def get(self, key): pass @abstractmethod def set(self, key, value): pass @abstractmethod def keys(self): pass @abstractmethod def contains(self, key): pass @abstractmethod def delete(self, key): pass @abstractmethod def flush(self): pass @abstractmethod def copy(self): pass class BaseFileCacheModule(BaseCacheModule): """ A caching module backed by file based storage. """ def __init__(self, *args, **kwargs): try: super(BaseFileCacheModule, self).__init__(*args, **kwargs) self._cache_dir = self._get_cache_connection(self.get_option('_uri')) self._timeout = float(self.get_option('_timeout')) except KeyError: self._cache_dir = self._get_cache_connection(C.CACHE_PLUGIN_CONNECTION) self._timeout = float(C.CACHE_PLUGIN_TIMEOUT) self.plugin_name = resource_from_fqcr(self.__module__) self._cache = {} self.validate_cache_connection() def _get_cache_connection(self, source): if source: try: return os.path.expanduser(os.path.expandvars(source)) except TypeError: pass def validate_cache_connection(self): if not self._cache_dir: raise AnsibleError("error, '%s' cache plugin requires the 'fact_caching_connection' config option " "to be set (to a writeable directory path)" % self.plugin_name) if not os.path.exists(self._cache_dir): try: os.makedirs(self._cache_dir) except (OSError, IOError) as e: raise AnsibleError("error in '%s' cache plugin while trying to create cache dir %s : %s" % (self.plugin_name, self._cache_dir, to_bytes(e))) else: for x in (os.R_OK, os.W_OK, os.X_OK): if not os.access(self._cache_dir, x): raise AnsibleError("error in '%s' cache, configured path (%s) does not have necessary permissions (rwx), disabling plugin" % ( self.plugin_name, self._cache_dir)) def _get_cache_file_name(self, key): prefix = self.get_option('_prefix') if prefix: cachefile = "%s/%s%s" % (self._cache_dir, prefix, key) else: cachefile = "%s/%s" % (self._cache_dir, key) return cachefile def get(self, key): """ This checks the in memory cache first as the fact was not expired at 'gather time' and it would be problematic if the key did expire after some long running tasks and user gets 'undefined' error in the same play """ if key not in self._cache: if self.has_expired(key) or key == "": raise KeyError cachefile = self._get_cache_file_name(key) try: value = self._load(cachefile) self._cache[key] = value except ValueError as e: display.warning("error in '%s' cache plugin while trying to read %s : %s. " "Most likely a corrupt file, so erasing and failing." % (self.plugin_name, cachefile, to_bytes(e))) self.delete(key) raise AnsibleError("The cache file %s was corrupt, or did not otherwise contain valid data. " "It has been removed, so you can re-run your command now." % cachefile) except (OSError, IOError) as e: display.warning("error in '%s' cache plugin while trying to read %s : %s" % (self.plugin_name, cachefile, to_bytes(e))) raise KeyError except Exception as e: raise AnsibleError("Error while decoding the cache file %s: %s" % (cachefile, to_bytes(e))) return self._cache.get(key) def set(self, key, value): self._cache[key] = value cachefile = self._get_cache_file_name(key) try: self._dump(value, cachefile) except (OSError, IOError) as e: display.warning("error in '%s' cache plugin while trying to write to %s : %s" % (self.plugin_name, cachefile, to_bytes(e))) def has_expired(self, key): if self._timeout == 0: return False cachefile = self._get_cache_file_name(key) try: st = os.stat(cachefile) except (OSError, IOError) as e: if e.errno == errno.ENOENT: return False else: display.warning("error in '%s' cache plugin while trying to stat %s : %s" % (self.plugin_name, cachefile, to_bytes(e))) return False if time.time() - st.st_mtime <= self._timeout: return False if key in self._cache: del self._cache[key] return True def keys(self): # When using a prefix we must remove it from the key name before # checking the expiry and returning it to the caller. Keys that do not # share the same prefix cannot be fetched from the cache. prefix = self.get_option('_prefix') prefix_length = len(prefix) keys = [] for k in os.listdir(self._cache_dir): if k.startswith('.') or not k.startswith(prefix): continue k = k[prefix_length:] if not self.has_expired(k): keys.append(k) return keys def contains(self, key): cachefile = self._get_cache_file_name(key) if key in self._cache: return True if self.has_expired(key): return False try: os.stat(cachefile) return True except (OSError, IOError) as e: if e.errno == errno.ENOENT: return False else: display.warning("error in '%s' cache plugin while trying to stat %s : %s" % (self.plugin_name, cachefile, to_bytes(e))) def delete(self, key): try: del self._cache[key] except KeyError: pass try: os.remove(self._get_cache_file_name(key)) except (OSError, IOError): pass # TODO: only pass on non existing? def flush(self): self._cache = {} for key in self.keys(): self.delete(key) def copy(self): ret = dict() for key in self.keys(): ret[key] = self.get(key) return ret @abstractmethod def _load(self, filepath): """ Read data from a filepath and return it as a value :arg filepath: The filepath to read from. :returns: The value stored in the filepath This method reads from the file on disk and takes care of any parsing and transformation of the data before returning it. The value returned should be what Ansible would expect if it were uncached data. .. note:: Filehandles have advantages but calling code doesn't know whether this file is text or binary, should be decoded, or accessed via a library function. Therefore the API uses a filepath and opens the file inside of the method. """ pass @abstractmethod def _dump(self, value, filepath): """ Write data to a filepath :arg value: The value to store :arg filepath: The filepath to store it at """ pass class CachePluginAdjudicator(MutableMapping): """ Intermediary between a cache dictionary and a CacheModule """ def __init__(self, plugin_name='memory', **kwargs): self._cache = {} self._retrieved = {} self._plugin = cache_loader.get(plugin_name, **kwargs) if not self._plugin: raise AnsibleError('Unable to load the cache plugin (%s).' % plugin_name) self._plugin_name = plugin_name def update_cache_if_changed(self): if self._retrieved != self._cache: self.set_cache() def set_cache(self): for top_level_cache_key in self._cache.keys(): self._plugin.set(top_level_cache_key, self._cache[top_level_cache_key]) self._retrieved = copy.deepcopy(self._cache) def load_whole_cache(self): for key in self._plugin.keys(): self._cache[key] = self._plugin.get(key) def __repr__(self): return to_text(self._cache) def __iter__(self): return iter(self.keys()) def __len__(self): return len(self.keys()) def _do_load_key(self, key): load = False if all([ key not in self._cache, key not in self._retrieved, self._plugin_name != 'memory', self._plugin.contains(key), ]): load = True return load def __getitem__(self, key): if self._do_load_key(key): try: self._cache[key] = self._plugin.get(key) except KeyError: pass else: self._retrieved[key] = self._cache[key] return self._cache[key] def get(self, key, default=None): if self._do_load_key(key): try: self._cache[key] = self._plugin.get(key) except KeyError as e: pass else: self._retrieved[key] = self._cache[key] return self._cache.get(key, default) def items(self): return self._cache.items() def values(self): return self._cache.values() def keys(self): return self._cache.keys() def pop(self, key, *args): if args: return self._cache.pop(key, args[0]) return self._cache.pop(key) def __delitem__(self, key): del self._cache[key] def __setitem__(self, key, value): self._cache[key] = value def flush(self): self._plugin.flush() self._cache = {} def update(self, value): self._cache.update(value)