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Direktori : /usr/lib/python3/dist-packages/cloudinit/sources/ |
Current File : //usr/lib/python3/dist-packages/cloudinit/sources/DataSourceLXD.py |
"""Datasource for LXD, reads /dev/lxd/sock representation of instance data. Notes: * This datasource replaces previous NoCloud datasource for LXD. * Older LXD images may not have updates for cloud-init so NoCloud may still be detected on those images. * Detect LXD datasource when /dev/lxd/sock is an active socket file. * Info on dev-lxd API: https://linuxcontainers.org/lxd/docs/master/dev-lxd """ import os import socket import stat import time from enum import Flag, auto from json.decoder import JSONDecodeError from typing import Any, Dict, List, Optional, Tuple, Union, cast import requests from requests.adapters import HTTPAdapter # Note: `urllib3` is transitively installed by `requests`. from urllib3.connection import HTTPConnection from urllib3.connectionpool import HTTPConnectionPool from cloudinit import log as logging from cloudinit import sources, subp, url_helper, util from cloudinit.net import find_fallback_nic LOG = logging.getLogger(__name__) LXD_SOCKET_PATH = "/dev/lxd/sock" LXD_SOCKET_API_VERSION = "1.0" LXD_URL = "http://lxd" # Config key mappings to alias as top-level instance data keys CONFIG_KEY_ALIASES = { "cloud-init.user-data": "user-data", "cloud-init.network-config": "network-config", "cloud-init.vendor-data": "vendor-data", "user.user-data": "user-data", "user.network-config": "network-config", "user.vendor-data": "vendor-data", } def _get_fallback_interface_name() -> str: default_name = "eth0" if subp.which("systemd-detect-virt"): try: virt_type, _ = subp.subp(["systemd-detect-virt"]) except subp.ProcessExecutionError as err: LOG.warning( "Unable to run systemd-detect-virt: %s." " Rendering default network config.", err, ) return default_name if virt_type.strip() in ( "kvm", "qemu", ): # instance.type VIRTUAL-MACHINE arch = util.system_info()["uname"][4] if arch == "ppc64le": return "enp0s5" elif arch == "s390x": return "enc9" else: return "enp5s0" return default_name def generate_network_config( nics: Optional[List[str]] = None, ) -> Dict[str, Any]: """Return network config V1 dict representing instance network config.""" # TODO: The original intent of this function was to use the nics retrieved # from LXD's devices endpoint to determine the primary nic and write # that out to network config. However, for LXD VMs, the device name # may differ from the interface name in the VM, so we'll instead rely # on our fallback nic code. Once LXD's devices endpoint grows the # ability to provide a MAC address, we should rely on that information # rather than just the glorified guessing that we're doing here. primary_nic = find_fallback_nic() if primary_nic: LOG.debug( "LXD datasource generating network from discovered active" " device: %s", primary_nic, ) else: primary_nic = _get_fallback_interface_name() LOG.debug( "LXD datasource generating network from systemd-detect-virt" " platform default device: %s", primary_nic, ) return { "version": 1, "config": [ { "type": "physical", "name": primary_nic, "subnets": [{"type": "dhcp", "control": "auto"}], } ], } class SocketHTTPConnection(HTTPConnection): def __init__(self, socket_path): super().__init__("localhost") self.socket_path = socket_path def connect(self): self.sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) self.sock.connect(self.socket_path) class SocketConnectionPool(HTTPConnectionPool): def __init__(self, socket_path): self.socket_path = socket_path super().__init__("localhost") def _new_conn(self): return SocketHTTPConnection(self.socket_path) class LXDSocketAdapter(HTTPAdapter): def get_connection(self, url, proxies=None): return SocketConnectionPool(LXD_SOCKET_PATH) def _raw_instance_data_to_dict(metadata_type: str, metadata_value) -> dict: """Convert raw instance data from str, bytes, YAML to dict :param metadata_type: string, one of as: meta-data, vendor-data, user-data network-config :param metadata_value: str, bytes or dict representing or instance-data. :raises: InvalidMetaDataError on invalid instance-data content. """ if isinstance(metadata_value, dict): return metadata_value if metadata_value is None: return {} try: parsed_metadata = util.load_yaml(metadata_value) except AttributeError as exc: # not str or bytes raise sources.InvalidMetaDataException( "Invalid {md_type}. Expected str, bytes or dict but found:" " {value}".format(md_type=metadata_type, value=metadata_value) ) from exc if parsed_metadata is None: raise sources.InvalidMetaDataException( "Invalid {md_type} format. Expected YAML but found:" " {value}".format(md_type=metadata_type, value=metadata_value) ) return parsed_metadata class DataSourceLXD(sources.DataSource): dsname = "LXD" _network_config: Union[Dict, str] = sources.UNSET _crawled_metadata: Union[Dict, str] = sources.UNSET sensitive_metadata_keys: Tuple[ str, ... ] = sources.DataSource.sensitive_metadata_keys + ( "user.meta-data", "user.vendor-data", "user.user-data", "cloud-init.user-data", "cloud-init.vendor-data", ) skip_hotplug_detect = True def _unpickle(self, ci_pkl_version: int) -> None: super()._unpickle(ci_pkl_version) self.skip_hotplug_detect = True def _is_platform_viable(self) -> bool: """Check platform environment to report if this datasource may run.""" return is_platform_viable() def _get_data(self) -> bool: """Crawl LXD socket API instance data and return True on success""" if not self._is_platform_viable(): LOG.debug("Not an LXD datasource: No LXD socket found.") return False self._crawled_metadata = util.log_time( logfunc=LOG.debug, msg="Crawl of metadata service", func=read_metadata, ) self.metadata = _raw_instance_data_to_dict( "meta-data", self._crawled_metadata.get("meta-data") ) config = self._crawled_metadata.get("config", {}) user_metadata = config.get("user.meta-data", {}) if user_metadata: user_metadata = _raw_instance_data_to_dict( "user.meta-data", user_metadata ) if not isinstance(self.metadata, dict): self.metadata = util.mergemanydict( [util.load_yaml(self.metadata), user_metadata] ) if "user-data" in self._crawled_metadata: self.userdata_raw = self._crawled_metadata["user-data"] if "network-config" in self._crawled_metadata: self._network_config = _raw_instance_data_to_dict( "network-config", self._crawled_metadata["network-config"] ) if "vendor-data" in self._crawled_metadata: self.vendordata_raw = self._crawled_metadata["vendor-data"] return True def _get_subplatform(self) -> str: """Return subplatform details for this datasource""" return "LXD socket API v. {ver} ({socket})".format( ver=LXD_SOCKET_API_VERSION, socket=LXD_SOCKET_PATH ) def check_instance_id(self, sys_cfg) -> str: """Return True if instance_id unchanged.""" response = read_metadata(metadata_keys=MetaDataKeys.META_DATA) md = response.get("meta-data", {}) if not isinstance(md, dict): md = util.load_yaml(md) return md.get("instance-id") == self.metadata.get("instance-id") @property def network_config(self) -> dict: """Network config read from LXD socket config/user.network-config. If none is present, then we generate fallback configuration. """ if self._network_config == sources.UNSET: if self._crawled_metadata == sources.UNSET: self._get_data() if isinstance(self._crawled_metadata, dict): if self._crawled_metadata.get("network-config"): LOG.debug("LXD datasource using provided network config") self._network_config = self._crawled_metadata[ "network-config" ] elif self._crawled_metadata.get("devices"): # If no explicit network config, but we have net devices # available to us, find the primary and set it up. devices: List[str] = [ k for k, v in self._crawled_metadata["devices"].items() if v["type"] == "nic" ] self._network_config = generate_network_config(devices) if self._network_config == sources.UNSET: # We know nothing about network, so setup fallback LOG.debug( "LXD datasource generating network config using fallback." ) self._network_config = generate_network_config() return cast(dict, self._network_config) def is_platform_viable() -> bool: """Return True when this platform appears to have an LXD socket.""" if os.path.exists(LXD_SOCKET_PATH): return stat.S_ISSOCK(os.lstat(LXD_SOCKET_PATH).st_mode) return False def _get_json_response( session: requests.Session, url: str, do_raise: bool = True ): url_response = _do_request(session, url, do_raise) if not url_response.ok: LOG.debug( "Skipping %s on [HTTP:%d]:%s", url, url_response.status_code, url_response.text, ) return {} try: return url_response.json() except JSONDecodeError as exc: raise sources.InvalidMetaDataException( "Unable to process LXD config at {url}." " Expected JSON but found: {resp}".format( url=url, resp=url_response.text ) ) from exc def _do_request( session: requests.Session, url: str, do_raise: bool = True ) -> requests.Response: for retries in range(30, 0, -1): response = session.get(url) if 500 == response.status_code: # retry every 0.1 seconds for 3 seconds in the case of 500 error # tis evil, but it also works around a bug time.sleep(0.1) LOG.warning( "[GET] [HTTP:%d] %s, retrying %d more time(s)", response.status_code, url, retries, ) else: break LOG.debug("[GET] [HTTP:%d] %s", response.status_code, url) if do_raise and not response.ok: raise sources.InvalidMetaDataException( "Invalid HTTP response [{code}] from {route}: {resp}".format( code=response.status_code, route=url, resp=response.text, ) ) return response class MetaDataKeys(Flag): NONE = auto() CONFIG = auto() DEVICES = auto() META_DATA = auto() ALL = CONFIG | DEVICES | META_DATA class _MetaDataReader: def __init__(self, api_version: str = LXD_SOCKET_API_VERSION): self.api_version = api_version self._version_url = url_helper.combine_url(LXD_URL, self.api_version) def _process_config(self, session: requests.Session) -> dict: """Iterate on LXD API config items. Promoting CONFIG_KEY_ALIASES Any CONFIG_KEY_ALIASES which affect cloud-init behavior are promoted as top-level configuration keys: user-data, network-data, vendor-data. LXD's cloud-init.* config keys override any user.* config keys. Log debug messages if any user.* keys are overridden by the related cloud-init.* key. """ config: dict = {"config": {}} config_url = url_helper.combine_url(self._version_url, "config") # Represent all advertized/available config routes under # the dict path {LXD_SOCKET_API_VERSION: {config: {...}}. config_routes = _get_json_response(session, config_url) # Sorting keys to ensure we always process in alphabetical order. # cloud-init.* keys will sort before user.* keys which is preferred # precedence. for config_route in sorted(config_routes): config_route_url = url_helper.combine_url(LXD_URL, config_route) config_route_response = _do_request( session, config_route_url, do_raise=False ) if not config_route_response.ok: LOG.debug( "Skipping %s on [HTTP:%d]:%s", config_route_url, config_route_response.status_code, config_route_response.text, ) continue cfg_key = config_route.rpartition("/")[-1] # Leave raw data values/format unchanged to represent it in # instance-data.json for cloud-init query or jinja template # use. config["config"][cfg_key] = config_route_response.text # Promote common CONFIG_KEY_ALIASES to top-level keys. if cfg_key in CONFIG_KEY_ALIASES: # Due to sort of config_routes, promote cloud-init.* # aliases before user.*. This allows user.* keys to act as # fallback config on old LXD, with new cloud-init images. if CONFIG_KEY_ALIASES[cfg_key] not in config: config[ CONFIG_KEY_ALIASES[cfg_key] ] = config_route_response.text else: LOG.warning( "Ignoring LXD config %s in favor of %s value.", cfg_key, cfg_key.replace("user", "cloud-init", 1), ) return config def __call__(self, *, metadata_keys: MetaDataKeys) -> dict: with requests.Session() as session: session.mount(self._version_url, LXDSocketAdapter()) # Document API version read md: dict = {"_metadata_api_version": self.api_version} if MetaDataKeys.META_DATA in metadata_keys: md_route = url_helper.combine_url( self._version_url, "meta-data" ) md["meta-data"] = _do_request(session, md_route).text if MetaDataKeys.CONFIG in metadata_keys: md.update(self._process_config(session)) if MetaDataKeys.DEVICES in metadata_keys: url = url_helper.combine_url(self._version_url, "devices") devices = _get_json_response(session, url, do_raise=False) if devices: md["devices"] = devices return md def read_metadata( api_version: str = LXD_SOCKET_API_VERSION, metadata_keys: MetaDataKeys = MetaDataKeys.ALL, ) -> dict: """Fetch metadata from the /dev/lxd/socket routes. Perform a number of HTTP GETs on known routes on the devlxd socket API. Minimally all containers must respond to <LXD_SOCKET_API_VERSION>/meta-data when the LXD configuration setting `security.devlxd` is true. When `security.devlxd` is false, no /dev/lxd/socket file exists. This datasource will return False from `is_platform_viable` in that case. Perform a GET of <LXD_SOCKET_API_VERSION>/config` and walk all `user.*` configuration keys, storing all keys and values under a dict key LXD_SOCKET_API_VERSION: config {...}. In the presence of the following optional user config keys, create top level aliases: - user.user-data -> user-data - user.vendor-data -> vendor-data - user.network-config -> network-config :param api_version: LXD API version to operated with. :param metadata_keys: Instance of `MetaDataKeys` indicating what keys to fetch. :return: A dict with the following optional keys: meta-data, user-data, vendor-data, network-config, network_mode, devices. Below <LXD_SOCKET_API_VERSION> is a dict representation of all raw configuration keys and values provided to the container surfaced by the socket under the /1.0/config/ route. """ return _MetaDataReader(api_version=api_version)( metadata_keys=metadata_keys ) # Used to match classes to dependencies datasources = [ (DataSourceLXD, (sources.DEP_FILESYSTEM,)), ] # Return a list of data sources that match this set of dependencies def get_datasource_list(depends): return sources.list_from_depends(depends, datasources) if __name__ == "__main__": import argparse description = """Query LXD metadata and emit a JSON object.""" parser = argparse.ArgumentParser(description=description) parser.parse_args() print(util.json_dumps(read_metadata(metadata_keys=MetaDataKeys.ALL))) # vi: ts=4 expandtab