# Copyright (C) 2012 Canonical Ltd. # Copyright (C) 2012 Hewlett-Packard Development Company, L.P. # Copyright (C) 2012 Yahoo! Inc. # # Author: Scott Moser # Author: Juerg Haefliger # Author: Joshua Harlow # # This file is part of cloud-init. See LICENSE file for license information. import abc import copy import json import os from collections import namedtuple from cloudinit import importer from cloudinit import log as logging from cloudinit import net from cloudinit import type_utils from cloudinit import user_data as ud from cloudinit import util from cloudinit.atomic_helper import write_json from cloudinit.event import EventType from cloudinit.filters import launch_index from cloudinit.reporting import events DSMODE_DISABLED = "disabled" DSMODE_LOCAL = "local" DSMODE_NETWORK = "net" DSMODE_PASS = "pass" VALID_DSMODES = [DSMODE_DISABLED, DSMODE_LOCAL, DSMODE_NETWORK] DEP_FILESYSTEM = "FILESYSTEM" DEP_NETWORK = "NETWORK" DS_PREFIX = 'DataSource' EXPERIMENTAL_TEXT = ( "EXPERIMENTAL: The structure and format of content scoped under the 'ds'" " key may change in subsequent releases of cloud-init.") # File in which public available instance meta-data is written # security-sensitive key values are redacted from this world-readable file INSTANCE_JSON_FILE = 'instance-data.json' # security-sensitive key values are present in this root-readable file INSTANCE_JSON_SENSITIVE_FILE = 'instance-data-sensitive.json' REDACT_SENSITIVE_VALUE = 'redacted for non-root user' # Key which can be provide a cloud's official product name to cloud-init METADATA_CLOUD_NAME_KEY = 'cloud-name' UNSET = "_unset" METADATA_UNKNOWN = 'unknown' LOG = logging.getLogger(__name__) # CLOUD_ID_REGION_PREFIX_MAP format is: # : (: ) CLOUD_ID_REGION_PREFIX_MAP = { 'cn-': ('aws-china', lambda c: c == 'aws'), # only change aws regions 'us-gov-': ('aws-gov', lambda c: c == 'aws'), # only change aws regions 'china': ('azure-china', lambda c: c == 'azure'), # only change azure } # NetworkConfigSource represents the canonical list of network config sources # that cloud-init knows about. (Python 2.7 lacks PEP 435, so use a singleton # namedtuple as an enum; see https://stackoverflow.com/a/6971002) _NETCFG_SOURCE_NAMES = ('cmdline', 'ds', 'system_cfg', 'fallback', 'initramfs') NetworkConfigSource = namedtuple('NetworkConfigSource', _NETCFG_SOURCE_NAMES)(*_NETCFG_SOURCE_NAMES) class DataSourceNotFoundException(Exception): pass class InvalidMetaDataException(Exception): """Raised when metadata is broken, unavailable or disabled.""" pass def process_instance_metadata(metadata, key_path='', sensitive_keys=()): """Process all instance metadata cleaning it up for persisting as json. Strip ci-b64 prefix and catalog any 'base64_encoded_keys' as a list @return Dict copy of processed metadata. """ md_copy = copy.deepcopy(metadata) base64_encoded_keys = [] sens_keys = [] for key, val in metadata.items(): if key_path: sub_key_path = key_path + '/' + key else: sub_key_path = key if key in sensitive_keys or sub_key_path in sensitive_keys: sens_keys.append(sub_key_path) if isinstance(val, str) and val.startswith('ci-b64:'): base64_encoded_keys.append(sub_key_path) md_copy[key] = val.replace('ci-b64:', '') if isinstance(val, dict): return_val = process_instance_metadata( val, sub_key_path, sensitive_keys) base64_encoded_keys.extend(return_val.pop('base64_encoded_keys')) sens_keys.extend(return_val.pop('sensitive_keys')) md_copy[key] = return_val md_copy['base64_encoded_keys'] = sorted(base64_encoded_keys) md_copy['sensitive_keys'] = sorted(sens_keys) return md_copy def redact_sensitive_keys(metadata, redact_value=REDACT_SENSITIVE_VALUE): """Redact any sensitive keys from to provided metadata dictionary. Replace any keys values listed in 'sensitive_keys' with redact_value. """ if not metadata.get('sensitive_keys', []): return metadata md_copy = copy.deepcopy(metadata) for key_path in metadata.get('sensitive_keys'): path_parts = key_path.split('/') obj = md_copy for path in path_parts: if isinstance(obj[path], dict) and path != path_parts[-1]: obj = obj[path] obj[path] = redact_value return md_copy URLParams = namedtuple( 'URLParms', ['max_wait_seconds', 'timeout_seconds', 'num_retries']) class DataSource(metaclass=abc.ABCMeta): dsmode = DSMODE_NETWORK default_locale = 'en_US.UTF-8' # Datasource name needs to be set by subclasses to determine which # cloud-config datasource key is loaded dsname = '_undef' # Cached cloud_name as determined by _get_cloud_name _cloud_name = None # Cached cloud platform api type: e.g. ec2, openstack, kvm, lxd, azure etc. _platform_type = None # More details about the cloud platform: # - metadata (http://169.254.169.254/) # - seed-dir () _subplatform = None # Track the discovered fallback nic for use in configuration generation. _fallback_interface = None # The network configuration sources that should be considered for this data # source. (The first source in this list that provides network # configuration will be used without considering any that follow.) This # should always be a subset of the members of NetworkConfigSource with no # duplicate entries. network_config_sources = (NetworkConfigSource.cmdline, NetworkConfigSource.initramfs, NetworkConfigSource.system_cfg, NetworkConfigSource.ds) # read_url_params url_max_wait = -1 # max_wait < 0 means do not wait url_timeout = 10 # timeout for each metadata url read attempt url_retries = 5 # number of times to retry url upon 404 # The datasource defines a set of supported EventTypes during which # the datasource can react to changes in metadata and regenerate # network configuration on metadata changes. # A datasource which supports writing network config on each system boot # would call update_events['network'].add(EventType.BOOT). # Default: generate network config on new instance id (first boot). update_events = {'network': set([EventType.BOOT_NEW_INSTANCE])} # N-tuple listing default values for any metadata-related class # attributes cached on an instance by a process_data runs. These attribute # values are reset via clear_cached_attrs during any update_metadata call. cached_attr_defaults = ( ('ec2_metadata', UNSET), ('network_json', UNSET), ('metadata', {}), ('userdata', None), ('userdata_raw', None), ('vendordata', None), ('vendordata_raw', None)) _dirty_cache = False # N-tuple of keypaths or keynames redact from instance-data.json for # non-root users sensitive_metadata_keys = ('merged_cfg', 'security-credentials',) def __init__(self, sys_cfg, distro, paths, ud_proc=None): self.sys_cfg = sys_cfg self.distro = distro self.paths = paths self.userdata = None self.metadata = {} self.userdata_raw = None self.vendordata = None self.vendordata_raw = None self.ds_cfg = util.get_cfg_by_path( self.sys_cfg, ("datasource", self.dsname), {}) if not self.ds_cfg: self.ds_cfg = {} if not ud_proc: self.ud_proc = ud.UserDataProcessor(self.paths) else: self.ud_proc = ud_proc def __str__(self): return type_utils.obj_name(self) def _get_standardized_metadata(self, instance_data): """Return a dictionary of standardized metadata keys.""" local_hostname = self.get_hostname() instance_id = self.get_instance_id() availability_zone = self.availability_zone # In the event of upgrade from existing cloudinit, pickled datasource # will not contain these new class attributes. So we need to recrawl # metadata to discover that content sysinfo = instance_data["sys_info"] return { 'v1': { '_beta_keys': ['subplatform'], 'availability-zone': availability_zone, 'availability_zone': availability_zone, 'cloud-name': self.cloud_name, 'cloud_name': self.cloud_name, 'distro': sysinfo["dist"][0], 'distro_version': sysinfo["dist"][1], 'distro_release': sysinfo["dist"][2], 'platform': self.platform_type, 'public_ssh_keys': self.get_public_ssh_keys(), 'python_version': sysinfo["python"], 'instance-id': instance_id, 'instance_id': instance_id, 'kernel_release': sysinfo["uname"][2], 'local-hostname': local_hostname, 'local_hostname': local_hostname, 'machine': sysinfo["uname"][4], 'region': self.region, 'subplatform': self.subplatform, 'system_platform': sysinfo["platform"], 'variant': sysinfo["variant"]}} def clear_cached_attrs(self, attr_defaults=()): """Reset any cached metadata attributes to datasource defaults. @param attr_defaults: Optional tuple of (attr, value) pairs to set instead of cached_attr_defaults. """ if not self._dirty_cache: return if attr_defaults: attr_values = attr_defaults else: attr_values = self.cached_attr_defaults for attribute, value in attr_values: if hasattr(self, attribute): setattr(self, attribute, value) if not attr_defaults: self._dirty_cache = False def get_data(self): """Datasources implement _get_data to setup metadata and userdata_raw. Minimally, the datasource should return a boolean True on success. """ self._dirty_cache = True return_value = self._get_data() if not return_value: return return_value self.persist_instance_data() return return_value def persist_instance_data(self): """Process and write INSTANCE_JSON_FILE with all instance metadata. Replace any hyphens with underscores in key names for use in template processing. @return True on successful write, False otherwise. """ if hasattr(self, '_crawled_metadata'): # Any datasource with _crawled_metadata will best represent # most recent, 'raw' metadata crawled_metadata = copy.deepcopy( getattr(self, '_crawled_metadata')) crawled_metadata.pop('user-data', None) crawled_metadata.pop('vendor-data', None) instance_data = {'ds': crawled_metadata} else: instance_data = {'ds': {'meta_data': self.metadata}} if hasattr(self, 'network_json'): network_json = getattr(self, 'network_json') if network_json != UNSET: instance_data['ds']['network_json'] = network_json if hasattr(self, 'ec2_metadata'): ec2_metadata = getattr(self, 'ec2_metadata') if ec2_metadata != UNSET: instance_data['ds']['ec2_metadata'] = ec2_metadata instance_data['ds']['_doc'] = EXPERIMENTAL_TEXT # Add merged cloud.cfg and sys info for jinja templates and cli query instance_data['merged_cfg'] = copy.deepcopy(self.sys_cfg) instance_data['merged_cfg']['_doc'] = ( 'Merged cloud-init system config from /etc/cloud/cloud.cfg and' ' /etc/cloud/cloud.cfg.d/') instance_data['sys_info'] = util.system_info() instance_data.update( self._get_standardized_metadata(instance_data)) try: # Process content base64encoding unserializable values content = util.json_dumps(instance_data) # Strip base64: prefix and set base64_encoded_keys list. processed_data = process_instance_metadata( json.loads(content), sensitive_keys=self.sensitive_metadata_keys) except TypeError as e: LOG.warning('Error persisting instance-data.json: %s', str(e)) return False except UnicodeDecodeError as e: LOG.warning('Error persisting instance-data.json: %s', str(e)) return False json_sensitive_file = os.path.join(self.paths.run_dir, INSTANCE_JSON_SENSITIVE_FILE) write_json(json_sensitive_file, processed_data, mode=0o600) json_file = os.path.join(self.paths.run_dir, INSTANCE_JSON_FILE) # World readable write_json(json_file, redact_sensitive_keys(processed_data)) return True def _get_data(self): """Walk metadata sources, process crawled data and save attributes.""" raise NotImplementedError( 'Subclasses of DataSource must implement _get_data which' ' sets self.metadata, vendordata_raw and userdata_raw.') def get_url_params(self): """Return the Datasource's prefered url_read parameters. Subclasses may override url_max_wait, url_timeout, url_retries. @return: A URLParams object with max_wait_seconds, timeout_seconds, num_retries. """ max_wait = self.url_max_wait try: max_wait = int(self.ds_cfg.get("max_wait", self.url_max_wait)) except ValueError: util.logexc( LOG, "Config max_wait '%s' is not an int, using default '%s'", self.ds_cfg.get("max_wait"), max_wait) timeout = self.url_timeout try: timeout = max( 0, int(self.ds_cfg.get("timeout", self.url_timeout))) except ValueError: timeout = self.url_timeout util.logexc( LOG, "Config timeout '%s' is not an int, using default '%s'", self.ds_cfg.get('timeout'), timeout) retries = self.url_retries try: retries = int(self.ds_cfg.get("retries", self.url_retries)) except Exception: util.logexc( LOG, "Config retries '%s' is not an int, using default '%s'", self.ds_cfg.get('retries'), retries) return URLParams(max_wait, timeout, retries) def get_userdata(self, apply_filter=False): if self.userdata is None: self.userdata = self.ud_proc.process(self.get_userdata_raw()) if apply_filter: return self._filter_xdata(self.userdata) return self.userdata def get_vendordata(self): if self.vendordata is None: self.vendordata = self.ud_proc.process(self.get_vendordata_raw()) return self.vendordata @property def fallback_interface(self): """Determine the network interface used during local network config.""" if self._fallback_interface is None: self._fallback_interface = net.find_fallback_nic() if self._fallback_interface is None: LOG.warning( "Did not find a fallback interface on %s.", self.cloud_name) return self._fallback_interface @property def platform_type(self): if not hasattr(self, '_platform_type'): # Handle upgrade path where pickled datasource has no _platform. self._platform_type = self.dsname.lower() if not self._platform_type: self._platform_type = self.dsname.lower() return self._platform_type @property def subplatform(self): """Return a string representing subplatform details for the datasource. This should be guidance for where the metadata is sourced. Examples of this on different clouds: ec2: metadata (http://169.254.169.254) openstack: configdrive (/dev/path) openstack: metadata (http://169.254.169.254) nocloud: seed-dir (/seed/dir/path) lxd: nocloud (/seed/dir/path) """ if not hasattr(self, '_subplatform'): # Handle upgrade path where pickled datasource has no _platform. self._subplatform = self._get_subplatform() if not self._subplatform: self._subplatform = self._get_subplatform() return self._subplatform def _get_subplatform(self): """Subclasses should implement to return a "slug (detail)" string.""" if hasattr(self, 'metadata_address'): return 'metadata (%s)' % getattr(self, 'metadata_address') return METADATA_UNKNOWN @property def cloud_name(self): """Return lowercase cloud name as determined by the datasource. Datasource can determine or define its own cloud product name in metadata. """ if self._cloud_name: return self._cloud_name if self.metadata and self.metadata.get(METADATA_CLOUD_NAME_KEY): cloud_name = self.metadata.get(METADATA_CLOUD_NAME_KEY) if isinstance(cloud_name, str): self._cloud_name = cloud_name.lower() else: self._cloud_name = self._get_cloud_name().lower() LOG.debug( 'Ignoring metadata provided key %s: non-string type %s', METADATA_CLOUD_NAME_KEY, type(cloud_name)) else: self._cloud_name = self._get_cloud_name().lower() return self._cloud_name def _get_cloud_name(self): """Return the datasource name as it frequently matches cloud name. Should be overridden in subclasses which can run on multiple cloud names, such as DatasourceEc2. """ return self.dsname @property def launch_index(self): if not self.metadata: return None if 'launch-index' in self.metadata: return self.metadata['launch-index'] return None def _filter_xdata(self, processed_ud): filters = [ launch_index.Filter(util.safe_int(self.launch_index)), ] new_ud = processed_ud for f in filters: new_ud = f.apply(new_ud) return new_ud @property def is_disconnected(self): return False def get_userdata_raw(self): return self.userdata_raw def get_vendordata_raw(self): return self.vendordata_raw # the data sources' config_obj is a cloud-config formated # object that came to it from ways other than cloud-config # because cloud-config content would be handled elsewhere def get_config_obj(self): return {} def get_public_ssh_keys(self): return normalize_pubkey_data(self.metadata.get('public-keys')) def publish_host_keys(self, hostkeys): """Publish the public SSH host keys (found in /etc/ssh/*.pub). @param hostkeys: List of host key tuples (key_type, key_value), where key_type is the first field in the public key file (e.g. 'ssh-rsa') and key_value is the key itself (e.g. 'AAAAB3NzaC1y...'). """ pass def _remap_device(self, short_name): # LP: #611137 # the metadata service may believe that devices are named 'sda' # when the kernel named them 'vda' or 'xvda' # we want to return the correct value for what will actually # exist in this instance mappings = {"sd": ("vd", "xvd", "vtb")} for (nfrom, tlist) in mappings.items(): if not short_name.startswith(nfrom): continue for nto in tlist: cand = "/dev/%s%s" % (nto, short_name[len(nfrom):]) if os.path.exists(cand): return cand return None def device_name_to_device(self, _name): # translate a 'name' to a device # the primary function at this point is on ec2 # to consult metadata service, that has # ephemeral0: sdb # and return 'sdb' for input 'ephemeral0' return None def get_locale(self): """Default locale is en_US.UTF-8, but allow distros to override""" locale = self.default_locale try: locale = self.distro.get_locale() except NotImplementedError: pass return locale @property def availability_zone(self): top_level_az = self.metadata.get( 'availability-zone', self.metadata.get('availability_zone')) if top_level_az: return top_level_az return self.metadata.get('placement', {}).get('availability-zone') @property def region(self): return self.metadata.get('region') def get_instance_id(self): if not self.metadata or 'instance-id' not in self.metadata: # Return a magic not really instance id string return "iid-datasource" return str(self.metadata['instance-id']) def get_hostname(self, fqdn=False, resolve_ip=False, metadata_only=False): """Get hostname or fqdn from the datasource. Look it up if desired. @param fqdn: Boolean, set True to return hostname with domain. @param resolve_ip: Boolean, set True to attempt to resolve an ipv4 address provided in local-hostname meta-data. @param metadata_only: Boolean, set True to avoid looking up hostname if meta-data doesn't have local-hostname present. @return: hostname or qualified hostname. Optionally return None when metadata_only is True and local-hostname data is not available. """ defdomain = "localdomain" defhost = "localhost" domain = defdomain if not self.metadata or not self.metadata.get('local-hostname'): if metadata_only: return None # this is somewhat questionable really. # the cloud datasource was asked for a hostname # and didn't have one. raising error might be more appropriate # but instead, basically look up the existing hostname toks = [] hostname = util.get_hostname() hosts_fqdn = util.get_fqdn_from_hosts(hostname) if hosts_fqdn and hosts_fqdn.find(".") > 0: toks = str(hosts_fqdn).split(".") elif hostname and hostname.find(".") > 0: toks = str(hostname).split(".") elif hostname: toks = [hostname, defdomain] else: toks = [defhost, defdomain] else: # if there is an ipv4 address in 'local-hostname', then # make up a hostname (LP: #475354) in format ip-xx.xx.xx.xx lhost = self.metadata['local-hostname'] if util.is_ipv4(lhost): toks = [] if resolve_ip: toks = util.gethostbyaddr(lhost) if toks: toks = str(toks).split('.') else: toks = ["ip-%s" % lhost.replace(".", "-")] else: toks = lhost.split(".") if len(toks) > 1: hostname = toks[0] domain = '.'.join(toks[1:]) else: hostname = toks[0] if fqdn and domain != defdomain: return "%s.%s" % (hostname, domain) else: return hostname def get_package_mirror_info(self): return self.distro.get_package_mirror_info(data_source=self) def update_metadata(self, source_event_types): """Refresh cached metadata if the datasource supports this event. The datasource has a list of update_events which trigger refreshing all cached metadata as well as refreshing the network configuration. @param source_event_types: List of EventTypes which may trigger a metadata update. @return True if the datasource did successfully update cached metadata due to source_event_type. """ supported_events = {} for event in source_event_types: for update_scope, update_events in self.update_events.items(): if event in update_events: if not supported_events.get(update_scope): supported_events[update_scope] = set() supported_events[update_scope].add(event) for scope, matched_events in supported_events.items(): LOG.debug( "Update datasource metadata and %s config due to events: %s", scope, ', '.join(matched_events)) # Each datasource has a cached config property which needs clearing # Once cleared that config property will be regenerated from # current metadata. self.clear_cached_attrs((('_%s_config' % scope, UNSET),)) if supported_events: self.clear_cached_attrs() result = self.get_data() if result: return True LOG.debug("Datasource %s not updated for events: %s", self, ', '.join(source_event_types)) return False def check_instance_id(self, sys_cfg): # quickly (local check only) if self.instance_id is still return False @staticmethod def _determine_dsmode(candidates, default=None, valid=None): # return the first candidate that is non None, warn if not valid if default is None: default = DSMODE_NETWORK if valid is None: valid = VALID_DSMODES for candidate in candidates: if candidate is None: continue if candidate in valid: return candidate else: LOG.warning("invalid dsmode '%s', using default=%s", candidate, default) return default return default @property def network_config(self): return None @property def first_instance_boot(self): return def setup(self, is_new_instance): """setup(is_new_instance) This is called before user-data and vendor-data have been processed. Unless the datasource has set mode to 'local', then networking per 'fallback' or per 'network_config' will have been written and brought up the OS at this point. """ return def activate(self, cfg, is_new_instance): """activate(cfg, is_new_instance) This is called before the init_modules will be called but after the user-data and vendor-data have been fully processed. The cfg is fully up to date config, it contains a merged view of system config, datasource config, user config, vendor config. It should be used rather than the sys_cfg passed to __init__. is_new_instance is a boolean indicating if this is a new instance. """ return def normalize_pubkey_data(pubkey_data): keys = [] if not pubkey_data: return keys if isinstance(pubkey_data, str): return pubkey_data.splitlines() if isinstance(pubkey_data, (list, set)): return list(pubkey_data) if isinstance(pubkey_data, (dict)): for (_keyname, klist) in pubkey_data.items(): # lp:506332 uec metadata service responds with # data that makes boto populate a string for 'klist' rather # than a list. if isinstance(klist, str): klist = [klist] if isinstance(klist, (list, set)): for pkey in klist: # There is an empty string at # the end of the keylist, trim it if pkey: keys.append(pkey) return keys def find_source(sys_cfg, distro, paths, ds_deps, cfg_list, pkg_list, reporter): ds_list = list_sources(cfg_list, ds_deps, pkg_list) ds_names = [type_utils.obj_name(f) for f in ds_list] mode = "network" if DEP_NETWORK in ds_deps else "local" LOG.debug("Searching for %s data source in: %s", mode, ds_names) for name, cls in zip(ds_names, ds_list): myrep = events.ReportEventStack( name="search-%s" % name.replace("DataSource", ""), description="searching for %s data from %s" % (mode, name), message="no %s data found from %s" % (mode, name), parent=reporter) try: with myrep: LOG.debug("Seeing if we can get any data from %s", cls) s = cls(sys_cfg, distro, paths) if s.update_metadata([EventType.BOOT_NEW_INSTANCE]): myrep.message = "found %s data from %s" % (mode, name) return (s, type_utils.obj_name(cls)) except Exception: util.logexc(LOG, "Getting data from %s failed", cls) msg = ("Did not find any data source," " searched classes: (%s)") % (", ".join(ds_names)) raise DataSourceNotFoundException(msg) # Return a list of classes that have the same depends as 'depends' # iterate through cfg_list, loading "DataSource*" modules # and calling their "get_datasource_list". # Return an ordered list of classes that match (if any) def list_sources(cfg_list, depends, pkg_list): src_list = [] LOG.debug(("Looking for data source in: %s," " via packages %s that matches dependencies %s"), cfg_list, pkg_list, depends) for ds_name in cfg_list: if not ds_name.startswith(DS_PREFIX): ds_name = '%s%s' % (DS_PREFIX, ds_name) m_locs, _looked_locs = importer.find_module(ds_name, pkg_list, ['get_datasource_list']) for m_loc in m_locs: mod = importer.import_module(m_loc) lister = getattr(mod, "get_datasource_list") matches = lister(depends) if matches: src_list.extend(matches) break return src_list def instance_id_matches_system_uuid(instance_id, field='system-uuid'): # quickly (local check only) if self.instance_id is still valid # we check kernel command line or files. if not instance_id: return False dmi_value = util.read_dmi_data(field) if not dmi_value: return False return instance_id.lower() == dmi_value.lower() def canonical_cloud_id(cloud_name, region, platform): """Lookup the canonical cloud-id for a given cloud_name and region.""" if not cloud_name: cloud_name = METADATA_UNKNOWN if not region: region = METADATA_UNKNOWN if region == METADATA_UNKNOWN: if cloud_name != METADATA_UNKNOWN: return cloud_name return platform for prefix, cloud_id_test in CLOUD_ID_REGION_PREFIX_MAP.items(): (cloud_id, valid_cloud) = cloud_id_test if region.startswith(prefix) and valid_cloud(cloud_name): return cloud_id if cloud_name != METADATA_UNKNOWN: return cloud_name return platform def convert_vendordata(data, recurse=True): """data: a loaded object (strings, arrays, dicts). return something suitable for cloudinit vendordata_raw. if data is: None: return None string: return string list: return data the list is then processed in UserDataProcessor dict: return convert_vendordata(data.get('cloud-init')) """ if not data: return None if isinstance(data, str): return data if isinstance(data, list): return copy.deepcopy(data) if isinstance(data, dict): if recurse is True: return convert_vendordata(data.get('cloud-init'), recurse=False) raise ValueError("vendordata['cloud-init'] cannot be dict") raise ValueError("Unknown data type for vendordata: %s" % type(data)) class BrokenMetadata(IOError): pass # 'depends' is a list of dependencies (DEP_FILESYSTEM) # ds_list is a list of 2 item lists # ds_list = [ # ( class, ( depends-that-this-class-needs ) ) # } # It returns a list of 'class' that matched these deps exactly # It mainly is a helper function for DataSourceCollections def list_from_depends(depends, ds_list): ret_list = [] depset = set(depends) for (cls, deps) in ds_list: if depset == set(deps): ret_list.append(cls) return ret_list # vi: ts=4 expandtab