# This file is part of cloud-init. See LICENSE file for license information. import base64 import json import logging import os import re import socket import struct import time import textwrap import zlib from cloudinit.settings import CFG_BUILTIN from cloudinit.net import dhcp from cloudinit import stages from cloudinit import temp_utils from contextlib import contextmanager from xml.etree import ElementTree from cloudinit import subp from cloudinit import url_helper from cloudinit import util from cloudinit import version from cloudinit import distros from cloudinit.reporting import events from cloudinit.net.dhcp import EphemeralDHCPv4 from datetime import datetime LOG = logging.getLogger(__name__) # This endpoint matches the format as found in dhcp lease files, since this # value is applied if the endpoint can't be found within a lease file DEFAULT_WIRESERVER_ENDPOINT = "a8:3f:81:10" BOOT_EVENT_TYPE = 'boot-telemetry' SYSTEMINFO_EVENT_TYPE = 'system-info' DIAGNOSTIC_EVENT_TYPE = 'diagnostic' COMPRESSED_EVENT_TYPE = 'compressed' # Maximum number of bytes of the cloud-init.log file that can be dumped to KVP # at once. This number is based on the analysis done on a large sample of # cloud-init.log files where the P95 of the file sizes was 537KB and the time # consumed to dump 500KB file was (P95:76, P99:233, P99.9:1170) in ms MAX_LOG_TO_KVP_LENGTH = 512000 # Marker file to indicate whether cloud-init.log is pushed to KVP LOG_PUSHED_TO_KVP_MARKER_FILE = '/var/lib/cloud/data/log_pushed_to_kvp' azure_ds_reporter = events.ReportEventStack( name="azure-ds", description="initialize reporter for azure ds", reporting_enabled=True) def azure_ds_telemetry_reporter(func): def impl(*args, **kwargs): with events.ReportEventStack( name=func.__name__, description=func.__name__, parent=azure_ds_reporter): return func(*args, **kwargs) return impl def is_byte_swapped(previous_id, current_id): """ Azure stores the instance ID with an incorrect byte ordering for the first parts. This corrects the byte order such that it is consistent with that returned by the metadata service. """ if previous_id == current_id: return False def swap_bytestring(s, width=2): dd = [byte for byte in textwrap.wrap(s, 2)] dd.reverse() return ''.join(dd) parts = current_id.split('-') swapped_id = '-'.join( [ swap_bytestring(parts[0]), swap_bytestring(parts[1]), swap_bytestring(parts[2]), parts[3], parts[4] ] ) return previous_id == swapped_id @azure_ds_telemetry_reporter def get_boot_telemetry(): """Report timestamps related to kernel initialization and systemd activation of cloud-init""" if not distros.uses_systemd(): raise RuntimeError( "distro not using systemd, skipping boot telemetry") LOG.debug("Collecting boot telemetry") try: kernel_start = float(time.time()) - float(util.uptime()) except ValueError as e: raise RuntimeError( "Failed to determine kernel start timestamp" ) from e try: out, _ = subp.subp(['/bin/systemctl', 'show', '-p', 'UserspaceTimestampMonotonic'], capture=True) tsm = None if out and '=' in out: tsm = out.split("=")[1] if not tsm: raise RuntimeError("Failed to parse " "UserspaceTimestampMonotonic from systemd") user_start = kernel_start + (float(tsm) / 1000000) except subp.ProcessExecutionError as e: raise RuntimeError( "Failed to get UserspaceTimestampMonotonic: %s" % e ) from e except ValueError as e: raise RuntimeError( "Failed to parse UserspaceTimestampMonotonic from systemd: %s" % e ) from e try: out, _ = subp.subp(['/bin/systemctl', 'show', 'cloud-init-local', '-p', 'InactiveExitTimestampMonotonic'], capture=True) tsm = None if out and '=' in out: tsm = out.split("=")[1] if not tsm: raise RuntimeError("Failed to parse " "InactiveExitTimestampMonotonic from systemd") cloudinit_activation = kernel_start + (float(tsm) / 1000000) except subp.ProcessExecutionError as e: raise RuntimeError( "Failed to get InactiveExitTimestampMonotonic: %s" % e ) from e except ValueError as e: raise RuntimeError( "Failed to parse InactiveExitTimestampMonotonic from systemd: %s" % e ) from e evt = events.ReportingEvent( BOOT_EVENT_TYPE, 'boot-telemetry', "kernel_start=%s user_start=%s cloudinit_activation=%s" % (datetime.utcfromtimestamp(kernel_start).isoformat() + 'Z', datetime.utcfromtimestamp(user_start).isoformat() + 'Z', datetime.utcfromtimestamp(cloudinit_activation).isoformat() + 'Z'), events.DEFAULT_EVENT_ORIGIN) events.report_event(evt) # return the event for unit testing purpose return evt @azure_ds_telemetry_reporter def get_system_info(): """Collect and report system information""" info = util.system_info() evt = events.ReportingEvent( SYSTEMINFO_EVENT_TYPE, 'system information', "cloudinit_version=%s, kernel_version=%s, variant=%s, " "distro_name=%s, distro_version=%s, flavor=%s, " "python_version=%s" % (version.version_string(), info['release'], info['variant'], info['dist'][0], info['dist'][1], info['dist'][2], info['python']), events.DEFAULT_EVENT_ORIGIN) events.report_event(evt) # return the event for unit testing purpose return evt def report_diagnostic_event( msg: str, *, logger_func=None) -> events.ReportingEvent: """Report a diagnostic event""" if callable(logger_func): logger_func(msg) evt = events.ReportingEvent( DIAGNOSTIC_EVENT_TYPE, 'diagnostic message', msg, events.DEFAULT_EVENT_ORIGIN) events.report_event(evt, excluded_handler_types={"log"}) # return the event for unit testing purpose return evt def report_compressed_event(event_name, event_content): """Report a compressed event""" compressed_data = base64.encodebytes(zlib.compress(event_content)) event_data = {"encoding": "gz+b64", "data": compressed_data.decode('ascii')} evt = events.ReportingEvent( COMPRESSED_EVENT_TYPE, event_name, json.dumps(event_data), events.DEFAULT_EVENT_ORIGIN) events.report_event(evt, excluded_handler_types={"log", "print", "webhook"}) # return the event for unit testing purpose return evt @azure_ds_telemetry_reporter def push_log_to_kvp(file_name=CFG_BUILTIN['def_log_file']): """Push a portion of cloud-init.log file or the whole file to KVP based on the file size. If called more than once, it skips pushing the log file to KVP again.""" log_pushed_to_kvp = bool(os.path.isfile(LOG_PUSHED_TO_KVP_MARKER_FILE)) if log_pushed_to_kvp: report_diagnostic_event( "cloud-init.log is already pushed to KVP", logger_func=LOG.debug) return LOG.debug("Dumping cloud-init.log file to KVP") try: with open(file_name, "rb") as f: f.seek(0, os.SEEK_END) seek_index = max(f.tell() - MAX_LOG_TO_KVP_LENGTH, 0) report_diagnostic_event( "Dumping last {} bytes of cloud-init.log file to KVP".format( f.tell() - seek_index), logger_func=LOG.debug) f.seek(seek_index, os.SEEK_SET) report_compressed_event("cloud-init.log", f.read()) util.write_file(LOG_PUSHED_TO_KVP_MARKER_FILE, '') except Exception as ex: report_diagnostic_event( "Exception when dumping log file: %s" % repr(ex), logger_func=LOG.warning) @contextmanager def cd(newdir): prevdir = os.getcwd() os.chdir(os.path.expanduser(newdir)) try: yield finally: os.chdir(prevdir) def _get_dhcp_endpoint_option_name(): if util.is_FreeBSD(): azure_endpoint = "option-245" else: azure_endpoint = "unknown-245" return azure_endpoint class AzureEndpointHttpClient: headers = { 'x-ms-agent-name': 'WALinuxAgent', 'x-ms-version': '2012-11-30', } def __init__(self, certificate): self.extra_secure_headers = { "x-ms-cipher-name": "DES_EDE3_CBC", "x-ms-guest-agent-public-x509-cert": certificate, } def get(self, url, secure=False): headers = self.headers if secure: headers = self.headers.copy() headers.update(self.extra_secure_headers) return url_helper.readurl(url, headers=headers, timeout=5, retries=10, sec_between=5) def post(self, url, data=None, extra_headers=None): headers = self.headers if extra_headers is not None: headers = self.headers.copy() headers.update(extra_headers) return url_helper.readurl(url, data=data, headers=headers, timeout=5, retries=10, sec_between=5) class InvalidGoalStateXMLException(Exception): """Raised when GoalState XML is invalid or has missing data.""" class GoalState: def __init__( self, unparsed_xml: str, azure_endpoint_client: AzureEndpointHttpClient, need_certificate: bool = True) -> None: """Parses a GoalState XML string and returns a GoalState object. @param unparsed_xml: string representing a GoalState XML. @param azure_endpoint_client: instance of AzureEndpointHttpClient. @param need_certificate: switch to know if certificates is needed. @return: GoalState object representing the GoalState XML string. """ self.azure_endpoint_client = azure_endpoint_client try: self.root = ElementTree.fromstring(unparsed_xml) except ElementTree.ParseError as e: report_diagnostic_event( 'Failed to parse GoalState XML: %s' % e, logger_func=LOG.warning) raise self.container_id = self._text_from_xpath('./Container/ContainerId') self.instance_id = self._text_from_xpath( './Container/RoleInstanceList/RoleInstance/InstanceId') self.incarnation = self._text_from_xpath('./Incarnation') for attr in ("container_id", "instance_id", "incarnation"): if getattr(self, attr) is None: msg = 'Missing %s in GoalState XML' % attr report_diagnostic_event(msg, logger_func=LOG.warning) raise InvalidGoalStateXMLException(msg) self.certificates_xml = None url = self._text_from_xpath( './Container/RoleInstanceList/RoleInstance' '/Configuration/Certificates') if url is not None and need_certificate: with events.ReportEventStack( name="get-certificates-xml", description="get certificates xml", parent=azure_ds_reporter): self.certificates_xml = \ self.azure_endpoint_client.get( url, secure=True).contents if self.certificates_xml is None: raise InvalidGoalStateXMLException( 'Azure endpoint returned empty certificates xml.') def _text_from_xpath(self, xpath): element = self.root.find(xpath) if element is not None: return element.text return None class OpenSSLManager: certificate_names = { 'private_key': 'TransportPrivate.pem', 'certificate': 'TransportCert.pem', } def __init__(self): self.tmpdir = temp_utils.mkdtemp() self.certificate = None self.generate_certificate() def clean_up(self): util.del_dir(self.tmpdir) @azure_ds_telemetry_reporter def generate_certificate(self): LOG.debug('Generating certificate for communication with fabric...') if self.certificate is not None: LOG.debug('Certificate already generated.') return with cd(self.tmpdir): subp.subp([ 'openssl', 'req', '-x509', '-nodes', '-subj', '/CN=LinuxTransport', '-days', '32768', '-newkey', 'rsa:2048', '-keyout', self.certificate_names['private_key'], '-out', self.certificate_names['certificate'], ]) certificate = '' for line in open(self.certificate_names['certificate']): if "CERTIFICATE" not in line: certificate += line.rstrip() self.certificate = certificate LOG.debug('New certificate generated.') @staticmethod @azure_ds_telemetry_reporter def _run_x509_action(action, cert): cmd = ['openssl', 'x509', '-noout', action] result, _ = subp.subp(cmd, data=cert) return result @azure_ds_telemetry_reporter def _get_ssh_key_from_cert(self, certificate): pub_key = self._run_x509_action('-pubkey', certificate) keygen_cmd = ['ssh-keygen', '-i', '-m', 'PKCS8', '-f', '/dev/stdin'] ssh_key, _ = subp.subp(keygen_cmd, data=pub_key) return ssh_key @azure_ds_telemetry_reporter def _get_fingerprint_from_cert(self, certificate): """openssl x509 formats fingerprints as so: 'SHA1 Fingerprint=07:3E:19:D1:4D:1C:79:92:24:C6:A0:FD:8D:DA:\ B6:A8:BF:27:D4:73\n' Azure control plane passes that fingerprint as so: '073E19D14D1C799224C6A0FD8DDAB6A8BF27D473' """ raw_fp = self._run_x509_action('-fingerprint', certificate) eq = raw_fp.find('=') octets = raw_fp[eq+1:-1].split(':') return ''.join(octets) @azure_ds_telemetry_reporter def _decrypt_certs_from_xml(self, certificates_xml): """Decrypt the certificates XML document using the our private key; return the list of certs and private keys contained in the doc. """ tag = ElementTree.fromstring(certificates_xml).find('.//Data') certificates_content = tag.text lines = [ b'MIME-Version: 1.0', b'Content-Disposition: attachment; filename="Certificates.p7m"', b'Content-Type: application/x-pkcs7-mime; name="Certificates.p7m"', b'Content-Transfer-Encoding: base64', b'', certificates_content.encode('utf-8'), ] with cd(self.tmpdir): out, _ = subp.subp( 'openssl cms -decrypt -in /dev/stdin -inkey' ' {private_key} -recip {certificate} | openssl pkcs12 -nodes' ' -password pass:'.format(**self.certificate_names), shell=True, data=b'\n'.join(lines)) return out @azure_ds_telemetry_reporter def parse_certificates(self, certificates_xml): """Given the Certificates XML document, return a dictionary of fingerprints and associated SSH keys derived from the certs.""" out = self._decrypt_certs_from_xml(certificates_xml) current = [] keys = {} for line in out.splitlines(): current.append(line) if re.match(r'[-]+END .*?KEY[-]+$', line): # ignore private_keys current = [] elif re.match(r'[-]+END .*?CERTIFICATE[-]+$', line): certificate = '\n'.join(current) ssh_key = self._get_ssh_key_from_cert(certificate) fingerprint = self._get_fingerprint_from_cert(certificate) keys[fingerprint] = ssh_key current = [] return keys class GoalStateHealthReporter: HEALTH_REPORT_XML_TEMPLATE = textwrap.dedent('''\ {incarnation} {container_id} {instance_id} {health_status} {health_detail_subsection} ''') HEALTH_DETAIL_SUBSECTION_XML_TEMPLATE = textwrap.dedent('''\
{health_substatus} {health_description}
''') PROVISIONING_SUCCESS_STATUS = 'Ready' def __init__( self, goal_state: GoalState, azure_endpoint_client: AzureEndpointHttpClient, endpoint: str) -> None: """Creates instance that will report provisioning status to an endpoint @param goal_state: An instance of class GoalState that contains goal state info such as incarnation, container id, and instance id. These 3 values are needed when reporting the provisioning status to Azure @param azure_endpoint_client: Instance of class AzureEndpointHttpClient @param endpoint: Endpoint (string) where the provisioning status report will be sent to @return: Instance of class GoalStateHealthReporter """ self._goal_state = goal_state self._azure_endpoint_client = azure_endpoint_client self._endpoint = endpoint @azure_ds_telemetry_reporter def send_ready_signal(self) -> None: document = self.build_report( incarnation=self._goal_state.incarnation, container_id=self._goal_state.container_id, instance_id=self._goal_state.instance_id, status=self.PROVISIONING_SUCCESS_STATUS) LOG.debug('Reporting ready to Azure fabric.') try: self._post_health_report(document=document) except Exception as e: report_diagnostic_event( "exception while reporting ready: %s" % e, logger_func=LOG.error) raise LOG.info('Reported ready to Azure fabric.') def build_report( self, incarnation: str, container_id: str, instance_id: str, status: str, substatus=None, description=None) -> str: health_detail = '' if substatus is not None: health_detail = self.HEALTH_DETAIL_SUBSECTION_XML_TEMPLATE.format( health_substatus=substatus, health_description=description) health_report = self.HEALTH_REPORT_XML_TEMPLATE.format( incarnation=incarnation, container_id=container_id, instance_id=instance_id, health_status=status, health_detail_subsection=health_detail) return health_report @azure_ds_telemetry_reporter def _post_health_report(self, document: str) -> None: push_log_to_kvp() # Whenever report_diagnostic_event(diagnostic_msg) is invoked in code, # the diagnostic messages are written to special files # (/var/opt/hyperv/.kvp_pool_*) as Hyper-V KVP messages. # Hyper-V KVP message communication is done through these files, # and KVP functionality is used to communicate and share diagnostic # info with the Azure Host. # The Azure Host will collect the VM's Hyper-V KVP diagnostic messages # when cloud-init reports to fabric. # When the Azure Host receives the health report signal, it will only # collect and process whatever KVP diagnostic messages have been # written to the KVP files. # KVP messages that are published after the Azure Host receives the # signal are ignored and unprocessed, so yield this thread to the # Hyper-V KVP Reporting thread so that they are written. # time.sleep(0) is a low-cost and proven method to yield the scheduler # and ensure that events are flushed. # See HyperVKvpReportingHandler class, which is a multi-threaded # reporting handler that writes to the special KVP files. time.sleep(0) LOG.debug('Sending health report to Azure fabric.') url = "http://{}/machine?comp=health".format(self._endpoint) self._azure_endpoint_client.post( url, data=document, extra_headers={'Content-Type': 'text/xml; charset=utf-8'}) LOG.debug('Successfully sent health report to Azure fabric') class WALinuxAgentShim: def __init__(self, fallback_lease_file=None, dhcp_options=None): LOG.debug('WALinuxAgentShim instantiated, fallback_lease_file=%s', fallback_lease_file) self.dhcpoptions = dhcp_options self._endpoint = None self.openssl_manager = None self.azure_endpoint_client = None self.lease_file = fallback_lease_file def clean_up(self): if self.openssl_manager is not None: self.openssl_manager.clean_up() @staticmethod def _get_hooks_dir(): _paths = stages.Init() return os.path.join(_paths.paths.get_runpath(), "dhclient.hooks") @property def endpoint(self): if self._endpoint is None: self._endpoint = self.find_endpoint(self.lease_file, self.dhcpoptions) return self._endpoint @staticmethod def get_ip_from_lease_value(fallback_lease_value): unescaped_value = fallback_lease_value.replace('\\', '') if len(unescaped_value) > 4: hex_string = '' for hex_pair in unescaped_value.split(':'): if len(hex_pair) == 1: hex_pair = '0' + hex_pair hex_string += hex_pair packed_bytes = struct.pack( '>L', int(hex_string.replace(':', ''), 16)) else: packed_bytes = unescaped_value.encode('utf-8') return socket.inet_ntoa(packed_bytes) @staticmethod @azure_ds_telemetry_reporter def _networkd_get_value_from_leases(leases_d=None): return dhcp.networkd_get_option_from_leases( 'OPTION_245', leases_d=leases_d) @staticmethod @azure_ds_telemetry_reporter def _get_value_from_leases_file(fallback_lease_file): leases = [] try: content = util.load_file(fallback_lease_file) except IOError as ex: LOG.error("Failed to read %s: %s", fallback_lease_file, ex) return None LOG.debug("content is %s", content) option_name = _get_dhcp_endpoint_option_name() for line in content.splitlines(): if option_name in line: # Example line from Ubuntu # option unknown-245 a8:3f:81:10; leases.append(line.strip(' ').split(' ', 2)[-1].strip(';\n"')) # Return the "most recent" one in the list if len(leases) < 1: return None else: return leases[-1] @staticmethod @azure_ds_telemetry_reporter def _load_dhclient_json(): dhcp_options = {} hooks_dir = WALinuxAgentShim._get_hooks_dir() if not os.path.exists(hooks_dir): LOG.debug("%s not found.", hooks_dir) return None hook_files = [os.path.join(hooks_dir, x) for x in os.listdir(hooks_dir)] for hook_file in hook_files: try: name = os.path.basename(hook_file).replace('.json', '') dhcp_options[name] = json.loads(util.load_file((hook_file))) except ValueError as e: raise ValueError( '{_file} is not valid JSON data'.format(_file=hook_file) ) from e return dhcp_options @staticmethod @azure_ds_telemetry_reporter def _get_value_from_dhcpoptions(dhcp_options): if dhcp_options is None: return None # the MS endpoint server is given to us as DHPC option 245 _value = None for interface in dhcp_options: _value = dhcp_options[interface].get('unknown_245', None) if _value is not None: LOG.debug("Endpoint server found in dhclient options") break return _value @staticmethod @azure_ds_telemetry_reporter def find_endpoint(fallback_lease_file=None, dhcp245=None): """Finds and returns the Azure endpoint using various methods. The Azure endpoint is searched in the following order: 1. Endpoint from dhcp options (dhcp option 245). 2. Endpoint from networkd. 3. Endpoint from dhclient hook json. 4. Endpoint from fallback lease file. 5. The default Azure endpoint. @param fallback_lease_file: Fallback lease file that will be used during endpoint search. @param dhcp245: dhcp options that will be used during endpoint search. @return: Azure endpoint IP address. """ value = None if dhcp245 is not None: value = dhcp245 LOG.debug("Using Azure Endpoint from dhcp options") if value is None: report_diagnostic_event( 'No Azure endpoint from dhcp options. ' 'Finding Azure endpoint from networkd...', logger_func=LOG.debug) value = WALinuxAgentShim._networkd_get_value_from_leases() if value is None: # Option-245 stored in /run/cloud-init/dhclient.hooks/.json # a dhclient exit hook that calls cloud-init-dhclient-hook report_diagnostic_event( 'No Azure endpoint from networkd. ' 'Finding Azure endpoint from hook json...', logger_func=LOG.debug) dhcp_options = WALinuxAgentShim._load_dhclient_json() value = WALinuxAgentShim._get_value_from_dhcpoptions(dhcp_options) if value is None: # Fallback and check the leases file if unsuccessful report_diagnostic_event( 'No Azure endpoint from dhclient logs. ' 'Unable to find endpoint in dhclient logs. ' 'Falling back to check lease files', logger_func=LOG.debug) if fallback_lease_file is None: report_diagnostic_event( 'No fallback lease file was specified.', logger_func=LOG.warning) value = None else: report_diagnostic_event( 'Looking for endpoint in lease file %s' % fallback_lease_file, logger_func=LOG.debug) value = WALinuxAgentShim._get_value_from_leases_file( fallback_lease_file) if value is None: value = DEFAULT_WIRESERVER_ENDPOINT report_diagnostic_event( 'No lease found; using default endpoint: %s' % value, logger_func=LOG.warning) endpoint_ip_address = WALinuxAgentShim.get_ip_from_lease_value(value) report_diagnostic_event( 'Azure endpoint found at %s' % endpoint_ip_address, logger_func=LOG.debug) return endpoint_ip_address @azure_ds_telemetry_reporter def register_with_azure_and_fetch_data(self, pubkey_info=None) -> dict: """Gets the VM's GoalState from Azure, uses the GoalState information to report ready/send the ready signal/provisioning complete signal to Azure, and then uses pubkey_info to filter and obtain the user's pubkeys from the GoalState. @param pubkey_info: List of pubkey values and fingerprints which are used to filter and obtain the user's pubkey values from the GoalState. @return: The list of user's authorized pubkey values. """ http_client_certificate = None if self.openssl_manager is None and pubkey_info is not None: self.openssl_manager = OpenSSLManager() http_client_certificate = self.openssl_manager.certificate if self.azure_endpoint_client is None: self.azure_endpoint_client = AzureEndpointHttpClient( http_client_certificate) goal_state = self._fetch_goal_state_from_azure( need_certificate=http_client_certificate is not None ) ssh_keys = None if pubkey_info is not None: ssh_keys = self._get_user_pubkeys(goal_state, pubkey_info) health_reporter = GoalStateHealthReporter( goal_state, self.azure_endpoint_client, self.endpoint) health_reporter.send_ready_signal() return {'public-keys': ssh_keys} @azure_ds_telemetry_reporter def _fetch_goal_state_from_azure( self, need_certificate: bool) -> GoalState: """Fetches the GoalState XML from the Azure endpoint, parses the XML, and returns a GoalState object. @return: GoalState object representing the GoalState XML """ unparsed_goal_state_xml = self._get_raw_goal_state_xml_from_azure() return self._parse_raw_goal_state_xml( unparsed_goal_state_xml, need_certificate ) @azure_ds_telemetry_reporter def _get_raw_goal_state_xml_from_azure(self) -> str: """Fetches the GoalState XML from the Azure endpoint and returns the XML as a string. @return: GoalState XML string """ LOG.info('Registering with Azure...') url = 'http://{}/machine/?comp=goalstate'.format(self.endpoint) try: with events.ReportEventStack( name="goalstate-retrieval", description="retrieve goalstate", parent=azure_ds_reporter): response = self.azure_endpoint_client.get(url) except Exception as e: report_diagnostic_event( 'failed to register with Azure and fetch GoalState XML: %s' % e, logger_func=LOG.warning) raise LOG.debug('Successfully fetched GoalState XML.') return response.contents @azure_ds_telemetry_reporter def _parse_raw_goal_state_xml( self, unparsed_goal_state_xml: str, need_certificate: bool) -> GoalState: """Parses a GoalState XML string and returns a GoalState object. @param unparsed_goal_state_xml: GoalState XML string @return: GoalState object representing the GoalState XML """ try: goal_state = GoalState( unparsed_goal_state_xml, self.azure_endpoint_client, need_certificate ) except Exception as e: report_diagnostic_event( 'Error processing GoalState XML: %s' % e, logger_func=LOG.warning) raise msg = ', '.join([ 'GoalState XML container id: %s' % goal_state.container_id, 'GoalState XML instance id: %s' % goal_state.instance_id, 'GoalState XML incarnation: %s' % goal_state.incarnation]) report_diagnostic_event(msg, logger_func=LOG.debug) return goal_state @azure_ds_telemetry_reporter def _get_user_pubkeys( self, goal_state: GoalState, pubkey_info: list) -> list: """Gets and filters the VM admin user's authorized pubkeys. The admin user in this case is the username specified as "admin" when deploying VMs on Azure. See https://docs.microsoft.com/en-us/cli/azure/vm#az-vm-create. cloud-init expects a straightforward array of keys to be dropped into the admin user's authorized_keys file. Azure control plane exposes multiple public keys to the VM via wireserver. Select just the admin user's key(s) and return them, ignoring any other certs. @param goal_state: GoalState object. The GoalState object contains a certificate XML, which contains both the VM user's authorized pubkeys and other non-user pubkeys, which are used for MSI and protected extension handling. @param pubkey_info: List of VM user pubkey dicts that were previously obtained from provisioning data. Each pubkey dict in this list can either have the format pubkey['value'] or pubkey['fingerprint']. Each pubkey['fingerprint'] in the list is used to filter and obtain the actual pubkey value from the GoalState certificates XML. Each pubkey['value'] requires no further processing and is immediately added to the return list. @return: A list of the VM user's authorized pubkey values. """ ssh_keys = [] if goal_state.certificates_xml is not None and pubkey_info is not None: LOG.debug('Certificate XML found; parsing out public keys.') keys_by_fingerprint = self.openssl_manager.parse_certificates( goal_state.certificates_xml) ssh_keys = self._filter_pubkeys(keys_by_fingerprint, pubkey_info) return ssh_keys @staticmethod def _filter_pubkeys(keys_by_fingerprint: dict, pubkey_info: list) -> list: """ Filter and return only the user's actual pubkeys. @param keys_by_fingerprint: pubkey fingerprint -> pubkey value dict that was obtained from GoalState Certificates XML. May contain non-user pubkeys. @param pubkey_info: List of VM user pubkeys. Pubkey values are added to the return list without further processing. Pubkey fingerprints are used to filter and obtain the actual pubkey values from keys_by_fingerprint. @return: A list of the VM user's authorized pubkey values. """ keys = [] for pubkey in pubkey_info: if 'value' in pubkey and pubkey['value']: keys.append(pubkey['value']) elif 'fingerprint' in pubkey and pubkey['fingerprint']: fingerprint = pubkey['fingerprint'] if fingerprint in keys_by_fingerprint: keys.append(keys_by_fingerprint[fingerprint]) else: LOG.warning("ovf-env.xml specified PublicKey fingerprint " "%s not found in goalstate XML", fingerprint) else: LOG.warning("ovf-env.xml specified PublicKey with neither " "value nor fingerprint: %s", pubkey) return keys @azure_ds_telemetry_reporter def get_metadata_from_fabric(fallback_lease_file=None, dhcp_opts=None, pubkey_info=None): shim = WALinuxAgentShim(fallback_lease_file=fallback_lease_file, dhcp_options=dhcp_opts) try: return shim.register_with_azure_and_fetch_data(pubkey_info=pubkey_info) finally: shim.clean_up() def dhcp_log_cb(out, err): report_diagnostic_event( "dhclient output stream: %s" % out, logger_func=LOG.debug) report_diagnostic_event( "dhclient error stream: %s" % err, logger_func=LOG.debug) class EphemeralDHCPv4WithReporting: def __init__(self, reporter, nic=None): self.reporter = reporter self.ephemeralDHCPv4 = EphemeralDHCPv4( iface=nic, dhcp_log_func=dhcp_log_cb) def __enter__(self): with events.ReportEventStack( name="obtain-dhcp-lease", description="obtain dhcp lease", parent=self.reporter): return self.ephemeralDHCPv4.__enter__() def __exit__(self, excp_type, excp_value, excp_traceback): self.ephemeralDHCPv4.__exit__( excp_type, excp_value, excp_traceback) # vi: ts=4 expandtab