Current File : //lib/python3.9/site-packages/cloudinit/sources/DataSourceGCE.py
# Author: Vaidas Jablonskis <jablonskis@gmail.com>
#
# This file is part of cloud-init. See LICENSE file for license information.
import datetime
import json
import logging
from base64 import b64decode
from cloudinit import dmi, net, sources, url_helper, util
from cloudinit.distros import ug_util
from cloudinit.event import EventScope, EventType
from cloudinit.net.dhcp import NoDHCPLeaseError
from cloudinit.net.ephemeral import EphemeralDHCPv4
from cloudinit.sources import DataSourceHostname
LOG = logging.getLogger(__name__)
MD_V1_URL = "http://metadata.google.internal/computeMetadata/v1/"
BUILTIN_DS_CONFIG = {"metadata_url": MD_V1_URL}
REQUIRED_FIELDS = ("instance-id", "availability-zone", "local-hostname")
GUEST_ATTRIBUTES_URL = (
"http://metadata.google.internal/computeMetadata/"
"v1/instance/guest-attributes"
)
HOSTKEY_NAMESPACE = "hostkeys"
HEADERS = {"Metadata-Flavor": "Google"}
DEFAULT_PRIMARY_INTERFACE = "ens4"
class GoogleMetadataFetcher:
def __init__(self, metadata_address, num_retries, sec_between_retries):
self.metadata_address = metadata_address
self.num_retries = num_retries
self.sec_between_retries = sec_between_retries
def get_value(self, path, is_text, is_recursive=False):
value = None
try:
url = self.metadata_address + path
if is_recursive:
url += "/?recursive=True"
resp = url_helper.readurl(
url=url,
headers=HEADERS,
retries=self.num_retries,
sec_between=self.sec_between_retries,
)
except url_helper.UrlError as exc:
msg = "url %s raised exception %s"
LOG.debug(msg, path, exc)
else:
if resp.code == 200:
if is_text:
value = util.decode_binary(resp.contents)
else:
value = resp.contents.decode("utf-8")
else:
LOG.debug("url %s returned code %s", path, resp.code)
return value
class DataSourceGCE(sources.DataSource):
dsname = "GCE"
perform_dhcp_setup = False
default_update_events = {
EventScope.NETWORK: {
EventType.BOOT_NEW_INSTANCE,
EventType.BOOT,
}
}
def __init__(self, sys_cfg, distro, paths):
sources.DataSource.__init__(self, sys_cfg, distro, paths)
self.default_user = None
if distro:
(users, _groups) = ug_util.normalize_users_groups(sys_cfg, distro)
(self.default_user, _user_config) = ug_util.extract_default(users)
self.metadata = dict()
self.ds_cfg = util.mergemanydict(
[
util.get_cfg_by_path(sys_cfg, ["datasource", "GCE"], {}),
BUILTIN_DS_CONFIG,
]
)
self.metadata_address = self.ds_cfg["metadata_url"]
def _get_data(self):
url_params = self.get_url_params()
if self.perform_dhcp_setup:
candidate_nics = net.find_candidate_nics()
if DEFAULT_PRIMARY_INTERFACE in candidate_nics:
candidate_nics.remove(DEFAULT_PRIMARY_INTERFACE)
candidate_nics.insert(0, DEFAULT_PRIMARY_INTERFACE)
LOG.debug("Looking for the primary NIC in: %s", candidate_nics)
assert (
len(candidate_nics) >= 1
), "The instance has to have at least one candidate NIC"
for candidate_nic in candidate_nics:
network_context = EphemeralDHCPv4(
self.distro,
iface=candidate_nic,
)
try:
with network_context:
try:
ret = util.log_time(
LOG.debug,
"Crawl of GCE metadata service",
read_md,
kwargs={
"address": self.metadata_address,
"url_params": url_params,
},
)
except Exception as e:
LOG.debug(
"Error fetching IMD with candidate NIC %s: %s",
candidate_nic,
e,
)
continue
except NoDHCPLeaseError:
continue
if ret["success"]:
self._fallback_interface = candidate_nic
LOG.debug("Primary NIC found: %s.", candidate_nic)
break
if self._fallback_interface is None:
LOG.warning(
"Did not find a fallback interface on %s.", self.cloud_name
)
else:
ret = util.log_time(
LOG.debug,
"Crawl of GCE metadata service",
read_md,
kwargs={
"address": self.metadata_address,
"url_params": url_params,
},
)
if not ret["success"]:
if ret["platform_reports_gce"]:
LOG.warning(ret["reason"])
else:
LOG.debug(ret["reason"])
return False
self.metadata = ret["meta-data"]
self.userdata_raw = ret["user-data"]
return True
@property
def launch_index(self):
# GCE does not provide lauch_index property.
return None
def get_instance_id(self):
return self.metadata["instance-id"]
def get_public_ssh_keys(self):
public_keys_data = self.metadata["public-keys-data"]
return _parse_public_keys(public_keys_data, self.default_user)
def publish_host_keys(self, hostkeys):
for key in hostkeys:
_write_host_key_to_guest_attributes(*key)
def get_hostname(self, fqdn=False, resolve_ip=False, metadata_only=False):
# GCE has long FDQN's and has asked for short hostnames.
return DataSourceHostname(
self.metadata["local-hostname"].split(".")[0], False
)
@property
def availability_zone(self):
return self.metadata["availability-zone"]
@property
def region(self):
return self.availability_zone.rsplit("-", 1)[0]
class DataSourceGCELocal(DataSourceGCE):
perform_dhcp_setup = True
def _write_host_key_to_guest_attributes(key_type, key_value):
url = "%s/%s/%s" % (GUEST_ATTRIBUTES_URL, HOSTKEY_NAMESPACE, key_type)
key_value = key_value.encode("utf-8")
resp = url_helper.readurl(
url=url,
data=key_value,
headers=HEADERS,
request_method="PUT",
check_status=False,
)
if resp.ok():
LOG.debug("Wrote %s host key to guest attributes.", key_type)
else:
LOG.debug("Unable to write %s host key to guest attributes.", key_type)
def _has_expired(public_key):
# Check whether an SSH key is expired. Public key input is a single SSH
# public key in the GCE specific key format documented here:
# https://cloud.google.com/compute/docs/instances/adding-removing-ssh-keys#sshkeyformat
try:
# Check for the Google-specific schema identifier.
schema, json_str = public_key.split(None, 3)[2:]
except (ValueError, AttributeError):
return False
# Do not expire keys if they do not have the expected schema identifier.
if schema != "google-ssh":
return False
try:
json_obj = json.loads(json_str)
except ValueError:
return False
# Do not expire keys if there is no expriation timestamp.
if "expireOn" not in json_obj:
return False
expire_str = json_obj["expireOn"]
format_str = "%Y-%m-%dT%H:%M:%S+0000"
try:
expire_time = datetime.datetime.strptime(expire_str, format_str)
except ValueError:
return False
# Expire the key if and only if we have exceeded the expiration timestamp.
return datetime.datetime.utcnow() > expire_time
def _parse_public_keys(public_keys_data, default_user=None):
# Parse the SSH key data for the default user account. Public keys input is
# a list containing SSH public keys in the GCE specific key format
# documented here:
# https://cloud.google.com/compute/docs/instances/adding-removing-ssh-keys#sshkeyformat
public_keys = []
if not public_keys_data:
return public_keys
for public_key in public_keys_data:
if not public_key or not all(ord(c) < 128 for c in public_key):
continue
split_public_key = public_key.split(":", 1)
if len(split_public_key) != 2:
continue
user, key = split_public_key
if user in ("cloudinit", default_user) and not _has_expired(key):
public_keys.append(key)
return public_keys
def read_md(address=None, url_params=None, platform_check=True):
if address is None:
address = MD_V1_URL
ret = {
"meta-data": None,
"user-data": None,
"success": False,
"reason": None,
}
ret["platform_reports_gce"] = platform_reports_gce()
if platform_check and not ret["platform_reports_gce"]:
ret["reason"] = "Not running on GCE."
return ret
# If we cannot resolve the metadata server, then no point in trying.
if not util.is_resolvable_url(address):
LOG.debug("%s is not resolvable", address)
ret["reason"] = 'address "%s" is not resolvable' % address
return ret
# url_map: (our-key, path, required, is_text, is_recursive)
url_map = [
("instance-id", ("instance/id",), True, True, False),
("availability-zone", ("instance/zone",), True, True, False),
("local-hostname", ("instance/hostname",), True, True, False),
("instance-data", ("instance/attributes",), False, False, True),
("project-data", ("project/attributes",), False, False, True),
]
metadata_fetcher = GoogleMetadataFetcher(
address, url_params.num_retries, url_params.sec_between_retries
)
md = {}
# Iterate over url_map keys to get metadata items.
for (mkey, paths, required, is_text, is_recursive) in url_map:
value = None
for path in paths:
new_value = metadata_fetcher.get_value(path, is_text, is_recursive)
if new_value is not None:
value = new_value
if required and value is None:
msg = "required key %s returned nothing. not GCE"
ret["reason"] = msg % mkey
return ret
md[mkey] = value
instance_data = json.loads(md["instance-data"] or "{}")
project_data = json.loads(md["project-data"] or "{}")
valid_keys = [instance_data.get("sshKeys"), instance_data.get("ssh-keys")]
block_project = instance_data.get("block-project-ssh-keys", "").lower()
if block_project != "true" and not instance_data.get("sshKeys"):
valid_keys.append(project_data.get("ssh-keys"))
valid_keys.append(project_data.get("sshKeys"))
public_keys_data = "\n".join([key for key in valid_keys if key])
md["public-keys-data"] = public_keys_data.splitlines()
if md["availability-zone"]:
md["availability-zone"] = md["availability-zone"].split("/")[-1]
if "user-data" in instance_data:
# instance_data was json, so values are all utf-8 strings.
ud = instance_data["user-data"].encode("utf-8")
encoding = instance_data.get("user-data-encoding")
if encoding == "base64":
ud = b64decode(ud)
elif encoding:
LOG.warning("unknown user-data-encoding: %s, ignoring", encoding)
ret["user-data"] = ud
ret["meta-data"] = md
ret["success"] = True
return ret
def platform_reports_gce():
pname = dmi.read_dmi_data("system-product-name") or "N/A"
if pname == "Google Compute Engine" or pname == "Google":
return True
# system-product-name is not always guaranteed (LP: #1674861)
serial = dmi.read_dmi_data("system-serial-number") or "N/A"
if serial.startswith("GoogleCloud-"):
return True
LOG.debug(
"Not running on google cloud. product-name=%s serial=%s", pname, serial
)
return False
# Used to match classes to dependencies.
datasources = [
(DataSourceGCELocal, (sources.DEP_FILESYSTEM,)),
(DataSourceGCE, (sources.DEP_FILESYSTEM, sources.DEP_NETWORK)),
]
# 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
import sys
from base64 import b64encode
parser = argparse.ArgumentParser(description="Query GCE Metadata Service")
parser.add_argument(
"--endpoint",
metavar="URL",
help="The url of the metadata service.",
default=MD_V1_URL,
)
parser.add_argument(
"--no-platform-check",
dest="platform_check",
help="Ignore smbios platform check",
action="store_false",
default=True,
)
args = parser.parse_args()
data = read_md(address=args.endpoint, platform_check=args.platform_check)
if "user-data" in data:
# user-data is bytes not string like other things. Handle it specially.
# If it can be represented as utf-8 then do so. Otherwise print base64
# encoded value in the key user-data-b64.
try:
data["user-data"] = data["user-data"].decode()
except UnicodeDecodeError:
sys.stderr.write(
"User-data cannot be decoded. Writing as base64\n"
)
del data["user-data"]
# b64encode returns a bytes value. Decode to get the string.
data["user-data-b64"] = b64encode(data["user-data"]).decode()
print(json.dumps(data, indent=1, sort_keys=True, separators=(",", ": ")))
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