from sfa.storage.alchemy import dbsession
from sfa.storage.model import RegRecord
-
-from sfa.trust.certificate import *
-from sfa.trust.credential import *
+from sfa.trust.credential import Credential
from sfa.trust.gid import GID
from sfa.managers.driver import Driver
# is taken care of
# SlabDriver should be really only about talking to the senslab testbed
-## thierry : please avoid wildcard imports :)
+
from sfa.senslab.OARrestapi import OARrestapi
from sfa.senslab.LDAPapi import LDAPapi
-from sfa.senslab.parsing import parse_filter
from sfa.senslab.slabpostgres import SlabDB, slab_dbsession,SliceSenslab
from sfa.senslab.slabaggregate import SlabAggregate
from sfa.senslab.slabslices import SlabSlices
-def list_to_dict(recs, key):
- """
- convert a list of dictionaries into a dictionary keyed on the
- specified dictionary key
- """
- keys = [rec[key] for rec in recs]
- return dict(zip(keys, recs))
# thierry : note
# this inheritance scheme is so that the driver object can receive
self.root_auth = config.SFA_REGISTRY_ROOT_AUTH
-
- print >>sys.stderr, "\r\n_____________ SFA SENSLAB DRIVER \r\n"
-
self.oar = OARrestapi()
self.ldap = LDAPapi()
self.time_format = "%Y-%m-%d %H:%M:%S"
def sliver_status(self,slice_urn,slice_hrn):
- # receive a status request for slice named urn/hrn urn:publicid:IDN+senslab+nturro_slice hrn senslab.nturro_slice
- # shall return a structure as described in
- # http://groups.geni.net/geni/wiki/GAPI_AM_API_V2#SliverStatus
- # NT : not sure if we should implement this or not, but used by sface.
+ """Receive a status request for slice named urn/hrn
+ urn:publicid:IDN+senslab+nturro_slice hrn senslab.nturro_slice
+ shall return a structure as described in
+ http://groups.geni.net/geni/wiki/GAPI_AM_API_V2#SliverStatus
+ NT : not sure if we should implement this or not, but used by sface.
-
+ """
+
+ #First get the slice with the slice hrn
sl = self.GetSlices(slice_filter= slice_hrn, filter_type = 'slice_hrn')
if len(sl) is 0:
raise SliverDoesNotExist("%s slice_hrn" % (slice_hrn))
-
- print >>sys.stderr, "\r\n \r\n_____________ Sliver status urn %s hrn %s sl %s \r\n " %(slice_urn,slice_hrn,sl)
+
+ nodes_in_slice = sl['node_ids']
+ if len(nodes_in_slice) is 0:
+ raise SliverDoesNotExist("No slivers allocated ")
+
+ logger.debug("Slabdriver - sliver_status Sliver status urn %s hrn %s sl\
+ %s \r\n " %(slice_urn,slice_hrn,sl) )
+
if sl['oar_job_id'] is not -1:
-
- # report about the local nodes only
- nodes_all = self.GetNodes({'hostname':sl['node_ids']},
+ #A job is running on Senslab for this slice
+ # report about the local nodes that are in the slice only
+
+ nodes_all = self.GetNodes({'hostname':nodes_in_slice},
['node_id', 'hostname','site','boot_state'])
nodeall_byhostname = dict([(n['hostname'], n) for n in nodes_all])
- nodes = sl['node_ids']
- if len(nodes) is 0:
- raise SliverDoesNotExist("No slivers allocated ")
-
+
result = {}
top_level_status = 'unknown'
if nodes:
top_level_status = 'ready'
result['geni_urn'] = slice_urn
- result['pl_login'] = sl['job_user']
- #result['slab_login'] = sl['job_user']
+ result['pl_login'] = sl['job_user'] #For compatibility
+
timestamp = float(sl['startTime']) + float(sl['walltime'])
- result['pl_expires'] = strftime(self.time_format, gmtime(float(timestamp)))
- #result['slab_expires'] = strftime(self.time_format, gmtime(float(timestamp)))
+ result['pl_expires'] = strftime(self.time_format, \
+ gmtime(float(timestamp)))
+ #result['slab_expires'] = strftime(self.time_format,\
+ #gmtime(float(timestamp)))
resources = []
for node in nodes:
res['pl_hostname'] = nodeall_byhostname[node]['hostname']
res['pl_boot_state'] = nodeall_byhostname[node]['boot_state']
- res['pl_last_contact'] = strftime(self.time_format, gmtime(float(timestamp)))
- sliver_id = urn_to_sliver_id(slice_urn, sl['record_id_slice'],nodeall_byhostname[node]['node_id'] )
+ res['pl_last_contact'] = strftime(self.time_format, \
+ gmtime(float(timestamp)))
+ sliver_id = urn_to_sliver_id(slice_urn, sl['record_id_slice'], \
+ nodeall_byhostname[node]['node_id'])
res['geni_urn'] = sliver_id
if nodeall_byhostname[node]['boot_state'] == 'Alive':
return True
- def GetPeers (self,auth = None, peer_filter=None, return_fields=None):
+ def GetPeers (self,auth = None, peer_filter=None, return_fields_list=None):
existing_records = {}
existing_hrns_by_types= {}
- print >>sys.stderr, "\r\n \r\n SLABDRIVER GetPeers auth = %s, peer_filter %s, return_field %s " %(auth , peer_filter, return_fields)
+ print >>sys.stderr, "\r\n \r\n SLABDRIVER GetPeers auth = %s, peer_filter %s, return_field %s " %(auth , peer_filter, return_fields_list)
all_records = dbsession.query(RegRecord).filter(RegRecord.type.like('%authority%')).all()
for record in all_records:
existing_records[(record.hrn,record.type)] = record
pass
return_records = records_list
- if not peer_filter and not return_fields:
+ if not peer_filter and not return_fields_list:
return records_list
- #return_records = parse_filter(records_list,peer_filter, 'peers', return_fields)
+
print >>sys.stderr, "\r\n \r\n SLABDRIVER GetPeers return_records %s " %(return_records)
return return_records
#TODO : Handling OR request in make_ldap_filters_from_records instead of the for loop
#over the records' list
- def GetPersons(self, person_filter=None, return_fields=None):
+ def GetPersons(self, person_filter=None, return_fields_list=None):
"""
person_filter should be a list of dictionnaries when not set to None.
Returns a list of users found.
#If we are looking for a list of users (list of dict records)
#Usually the list contains only one user record
for f in person_filter:
- person = self.ldap.ldapSearch(f)
+ person = self.ldap.LdapFindUser(f)
person_list.append(person)
else:
- person_list = self.ldap.ldapSearch()
+ person_list = self.ldap.LdapFindUser()
return person_list
- #person_list = self.ldap.ldapFindHrn({'authority': self.root_auth })
- ##check = False
- ##if person_filter and isinstance(person_filter, dict):
- ##for k in person_filter.keys():
- ##if k in person_list[0].keys():
- ##check = True
-
- #return_person_list = parse_filter(person_list,person_filter ,'persons', return_fields)
- #if return_person_list:
- #print>>sys.stderr, " \r\n GetPersons person_filter %s return_fields %s " %(person_filter,return_fields)
- #return return_person_list
+
def GetTimezone(self):
server_timestamp,server_tz = self.oar.parser.SendRequest("GET_timezone")
print>>sys.stderr, "\r\n \r\n jobid DeleteJobs %s " %(answer)
- def GetJobs(self,job_id= None, resources=True,return_fields=None, username = None):
+ def GetJobs(self,job_id= None, resources=True,return_fields_list=None, username = None):
#job_resources=['reserved_resources', 'assigned_resources','job_id', 'job_uri', 'assigned_nodes',\
#'api_timestamp']
#assigned_res = ['resource_id', 'resource_uri']
def GetReservedNodes(self):
# this function returns a list of all the nodes already involved in an oar job
-
+ #jobs=self.oar.parser.SendRequest("GET_reserved_nodes")
jobs=self.oar.parser.SendRequest("GET_jobs_details")
nodes=[]
for j in jobs :
nodes=j['assigned_network_address']+nodes
return nodes
- def GetNodes(self,node_filter= None, return_fields=None):
- node_dict =self.oar.parser.SendRequest("GET_resources_full")
-
+ def GetNodes(self,node_filter_dict = None, return_fields_list = None):
+ """
+ node_filter_dict : dictionnary of lists
+
+ """
+ node_dict_by_id = self.oar.parser.SendRequest("GET_resources_full")
+ node_dict_list = node_dict_by_id.values()
+
+ #No filtering needed return the list directly
+ if not (node_filter_dict or return_fields_list):
+ return node_dict_list
+
return_node_list = []
- if not (node_filter or return_fields):
- return_node_list = node_dict.values()
- return return_node_list
-
- return_node_list= parse_filter(node_dict.values(),node_filter ,'node', return_fields)
+ if node_filter_dict:
+ for filter_key in node_filter_dict:
+ try:
+ #Filter the node_dict_list by each value contained in the
+ #list node_filter_dict[filter_key]
+ for value in node_filter_dict[filter_key]:
+ for node in node_dict_list:
+ if node[filter_key] == value:
+ if return_fields_list :
+ tmp = {}
+ for k in return_fields_list:
+ tmp[k] = node[k]
+ return_node_list.append(tmp)
+ else:
+ return_node_list.append(node)
+ except KeyError:
+ logger.log_exc("GetNodes KeyError")
+ return
+
+
return return_node_list
- def GetSites(self, site_filter = None, return_fields=None):
- site_dict =self.oar.parser.SendRequest("GET_sites")
+ def GetSites(self, site_filter_name = None, return_fields_list = None):
+ site_dict = self.oar.parser.SendRequest("GET_sites")
+ #site_dict : dict where the key is the sit ename
return_site_list = []
- if not ( site_filter or return_fields):
+ if not ( site_filter_name or return_fields_list):
return_site_list = site_dict.values()
return return_site_list
-
- return_site_list = parse_filter(site_dict.values(), site_filter,'site', return_fields)
+
+ if site_filter_name in site_dict:
+ if return_fields_list:
+ for field in return_fields_list:
+ tmp = {}
+ Create
+ try:
+ tmp[field] = site_dict[site_filter_name][field]
+ except KeyError:
+ logger.error("GetSites KeyError %s "%(field))
+ return None
+ return_site_list.append(tmp)
+ else:
+ return_site_list.append( site_dict[site_filter_name])
+
+
return return_site_list
- def GetSlices(self,slice_filter = None, filter_type = None, return_fields=None):
+ def GetSlices(self,slice_filter = None, filter_type = None, return_fields_list=None):
return_slice_list = []
slicerec = {}
rec = {}
print >>sys.stderr, " \r\n \r\n \tSLABDRIVER.PY GetSlices slices %s slice_filter %s " %(return_slice_list,slice_filter)
- #if return_fields:
- #return_slice_list = parse_filter(sliceslist, slice_filter,'slice', return_fields)
+ #if return_fields_list:
+ #return_slice_list = parse_filter(sliceslist, slice_filter,'slice', return_fields_list)