#!@PYTHON@ -tt import sys import shutil, tempfile, suds import logging, requests import atexit, signal sys.path.append("@FENCEAGENTSLIBDIR@") from suds.client import Client from suds.sudsobject import Property from suds.transport.http import HttpAuthenticated from suds.transport import Reply, TransportError from fencing import * from fencing import fail, fail_usage, EC_STATUS, EC_LOGIN_DENIED, EC_INVALID_PRIVILEGES, EC_WAITING_ON, EC_WAITING_OFF from fencing import run_delay options_global = None conn_global = None class RequestsTransport(HttpAuthenticated): def __init__(self, **kwargs): self.cert = kwargs.pop('cert', None) self.verify = kwargs.pop('verify', True) self.session = requests.Session() # super won't work because not using new style class HttpAuthenticated.__init__(self, **kwargs) def send(self, request): self.addcredentials(request) resp = self.session.post(request.url, data=request.message, headers=request.headers, cert=self.cert, verify=self.verify) result = Reply(resp.status_code, resp.headers, resp.content) return result def soap_login(options): run_delay(options) if "--ssl-secure" in options or "--ssl-insecure" in options: if "--ssl-insecure" in options: import ssl import urllib3 if hasattr(ssl, '_create_unverified_context'): ssl._create_default_https_context = ssl._create_unverified_context urllib3.disable_warnings(urllib3.exceptions.InsecureRequestWarning) verify = False else: verify = True url = "https://" else: verify = False url = "http://" url += options["--ip"] + ":" + str(options["--ipport"]) + "/sdk" tmp_dir = tempfile.mkdtemp() tempfile.tempdir = tmp_dir atexit.register(remove_tmp_dir, tmp_dir) try: headers = {"Content-Type" : "text/xml;charset=UTF-8", "SOAPAction" : "vim25"} login_timeout = int(options["--login-timeout"]) or 15 conn = Client(url + "/vimService.wsdl", location=url, transport=RequestsTransport(verify=verify), headers=headers, timeout=login_timeout) mo_ServiceInstance = Property('ServiceInstance') mo_ServiceInstance._type = 'ServiceInstance' ServiceContent = conn.service.RetrieveServiceContent(mo_ServiceInstance) mo_SessionManager = Property(ServiceContent.sessionManager.value) mo_SessionManager._type = 'SessionManager' conn.service.Login(mo_SessionManager, options["--username"], options["--password"]) except requests.exceptions.SSLError as ex: fail_usage("Server side certificate verification failed: %s" % ex) except Exception as e: logging.error("Server side certificate verification failed: {}".format(str(e))) fail(EC_LOGIN_DENIED) options["ServiceContent"] = ServiceContent options["mo_SessionManager"] = mo_SessionManager return conn def process_results(results, machines, uuid, mappingToUUID): for m in results.objects: info = {} for i in m.propSet: info[i.name] = i.val # Prevent error KeyError: 'config.uuid' when reaching systems which P2V failed, # since these systems don't have a valid UUID if "config.uuid" in info: machines[info["name"]] = (info["config.uuid"], info["summary.runtime.powerState"]) uuid[info["config.uuid"]] = info["summary.runtime.powerState"] mappingToUUID[m.obj.value] = info["config.uuid"] return (machines, uuid, mappingToUUID) def get_power_status(conn, options): mo_ViewManager = Property(options["ServiceContent"].viewManager.value) mo_ViewManager._type = "ViewManager" mo_RootFolder = Property(options["ServiceContent"].rootFolder.value) mo_RootFolder._type = "Folder" mo_PropertyCollector = Property(options["ServiceContent"].propertyCollector.value) mo_PropertyCollector._type = 'PropertyCollector' ContainerView = conn.service.CreateContainerView(mo_ViewManager, recursive=1, container=mo_RootFolder, type=['VirtualMachine']) mo_ContainerView = Property(ContainerView.value) mo_ContainerView._type = "ContainerView" FolderTraversalSpec = conn.factory.create('ns0:TraversalSpec') FolderTraversalSpec.name = "traverseEntities" FolderTraversalSpec.path = "view" FolderTraversalSpec.skip = False FolderTraversalSpec.type = "ContainerView" objSpec = conn.factory.create('ns0:ObjectSpec') objSpec.obj = mo_ContainerView objSpec.selectSet = [FolderTraversalSpec] objSpec.skip = True propSpec = conn.factory.create('ns0:PropertySpec') propSpec.all = False propSpec.pathSet = ["name", "summary.runtime.powerState", "config.uuid"] propSpec.type = "VirtualMachine" propFilterSpec = conn.factory.create('ns0:PropertyFilterSpec') propFilterSpec.propSet = [propSpec] propFilterSpec.objectSet = [objSpec] try: raw_machines = conn.service.RetrievePropertiesEx(mo_PropertyCollector, propFilterSpec) except Exception as e: logging.error("Failed: {}".format(str(e))) fail(EC_STATUS) (machines, uuid, mappingToUUID) = process_results(raw_machines, {}, {}, {}) # Probably need to loop over the ContinueRetreive if there are more results after 1 iteration. while hasattr(raw_machines, 'token'): try: raw_machines = conn.service.ContinueRetrievePropertiesEx(mo_PropertyCollector, raw_machines.token) except Exception as e: logging.error("Failed: {}".format(str(e))) fail(EC_STATUS) (more_machines, more_uuid, more_mappingToUUID) = process_results(raw_machines, {}, {}, {}) machines.update(more_machines) uuid.update(more_uuid) mappingToUUID.update(more_mappingToUUID) # Do not run unnecessary SOAP requests if "--uuid" in options and options["--uuid"] in uuid: break if ["list", "monitor"].count(options["--action"]) == 1: return machines else: if "--uuid" not in options: if options["--plug"].startswith('/'): ## Transform InventoryPath to UUID mo_SearchIndex = Property(options["ServiceContent"].searchIndex.value) mo_SearchIndex._type = "SearchIndex" vm = conn.service.FindByInventoryPath(mo_SearchIndex, options["--plug"]) try: options["--uuid"] = mappingToUUID[vm.value] except KeyError: fail(EC_STATUS) except AttributeError: fail(EC_STATUS) else: ## Name of virtual machine instead of path ## warning: if you have same names of machines this won't work correctly try: (options["--uuid"], _) = machines[options["--plug"]] except KeyError: fail(EC_STATUS) except AttributeError: fail(EC_STATUS) try: if uuid[options["--uuid"]] == "poweredOn": return "on" else: return "off" except KeyError: fail(EC_STATUS) def set_power_status(conn, options): mo_SearchIndex = Property(options["ServiceContent"].searchIndex.value) mo_SearchIndex._type = "SearchIndex" vm = conn.service.FindByUuid(mo_SearchIndex, vmSearch=1, uuid=options["--uuid"]) mo_machine = Property(vm.value) mo_machine._type = "VirtualMachine" try: if options["--action"] == "on": conn.service.PowerOnVM_Task(mo_machine) else: conn.service.PowerOffVM_Task(mo_machine) except suds.WebFault as ex: if (str(ex).find("Permission to perform this operation was denied")) >= 0: fail(EC_INVALID_PRIVILEGES) else: if options["--action"] == "on": fail(EC_WAITING_ON) else: fail(EC_WAITING_OFF) def remove_tmp_dir(tmp_dir): shutil.rmtree(tmp_dir) def logout(): try: conn_global.service.Logout(options_global["mo_SessionManager"]) except Exception: pass def signal_handler(signum, frame): raise Exception("Signal \"%d\" received which has triggered an exit of the process." % signum) def main(): global options_global global conn_global device_opt = ["ipaddr", "login", "passwd", "web", "ssl", "notls", "port"] atexit.register(atexit_handler) atexit.register(logout) signal.signal(signal.SIGTERM, signal_handler) options_global = check_input(device_opt, process_input(device_opt)) ## ## Fence agent specific defaults ##### docs = {} docs["shortdesc"] = "Fence agent for VMWare over SOAP API" docs["longdesc"] = "fence_vmware_soap is an I/O Fencing agent \ which can be used with the virtual machines managed by VMWare products \ that have SOAP API v4.1+. \ \n.P\n\ Name of virtual machine (-n / port) has to be used in inventory path \ format (e.g. /datacenter/vm/Discovered virtual machine/myMachine). \ In the cases when name of yours VM is unique you can use it instead. \ Alternatively you can always use UUID to access virtual machine." docs["vendorurl"] = "http://www.vmware.com" show_docs(options_global, docs) logging.basicConfig(level=logging.INFO) logging.getLogger('suds.client').setLevel(logging.CRITICAL) logging.getLogger("requests").setLevel(logging.CRITICAL) logging.getLogger("urllib3").setLevel(logging.CRITICAL) ## ## Operate the fencing device #### conn_global = soap_login(options_global) result = fence_action(conn_global, options_global, set_power_status, get_power_status, get_power_status) ## Logout from system is done automatically via atexit() sys.exit(result) if __name__ == "__main__": main()