returns = Parameter(int, "1 if successful")
def call(self, auth, peer_id_or_peername):
+
+ start = time.time()
+
# Get peer
peers = Peers(self.api, [peer_id_or_peername])
if not peers:
timers = {}
# Get peer data
- start = time.time()
peer_tables = peer.GetPeerData()
timers['transport'] = time.time() - start - peer_tables['db_time']
timers['peer_db'] = peer_tables['db_time']
- def sync(objects, peer_objects, classobj):
+ now=time.time()
+ timers['prepare'] = now-start-timers['peer_db']-timers['transport']
+ start=now
+
+ def sync(objects, peer_objects, classobj,debug_dict={}):
"""
Synchronizes two dictionaries of objects. objects should
be a dictionary of local objects keyed on their foreign
keyed on their foreign identifiers.
"""
+ for key in ['delete','sync','process','focus','added','deleted','updated','unchanged','synced','screwed']:
+ debug_dict[key]=0
+
synced = {}
+ xstart=time.time()
# Delete stale objects
for peer_object_id, object in objects.iteritems():
if peer_object_id not in peer_objects:
object.delete(commit = False)
print classobj, "object %d deleted" % object[object.primary_key]
+ debug_dict['deleted'] += 1
+
+ xnow=time.time()
+ debug_dict['delete']=xnow-xstart
+ xstart=xnow
# Add/update new/existing objects
for peer_object_id, peer_object in peer_objects.iteritems():
- if peer_object_id in objects:
+
+ xnow=time.time()
+ debug_dict['sync'] += (xnow-xstart)
+ xstart=xnow
+
+ #if peer_object_id in objects:
+ if objects.has_key(peer_object_id):
# Update existing object
object = objects[peer_object_id]
object.update(object.db_fields(peer_object))
sync = True
dbg = "changed"
+ debug_dict['updated'] += 1
else:
sync = False
dbg = None
+ debug_dict['unchanged'] += 1
# Restore foreign identifier
peer_object[object.primary_key] = peer_object_id
del object[object.primary_key]
sync = True
dbg = "added"
+ debug_dict['added'] += 1
+
+ xnow=time.time()
+ debug_dict['process'] += (xnow-xstart)
+ xstart=xnow
if sync:
try:
object.sync(commit = False)
+ debug_dict['synced'] += 1
except PLCInvalidArgument, err:
# Skip if validation fails
# XXX Log an event instead of printing to logfile
print >> log, "Warning: Skipping invalid", \
peer['peername'], object.__class__.__name__, \
":", peer_object, ":", err
+ debug_dict['screwed'] += 1
continue
synced[peer_object_id] = object
if dbg:
print >> log, peer['peername'], classobj(self.api).__class__.__name__, object[object.primary_key], dbg
+ xnow=time.time()
+ debug_dict['sync'] += (xnow-xstart)
+ xstart=xnow
+
return synced
#
# Synchronize foreign sites
#
- start = time.time()
-
# Compare only the columns returned by the GetPeerData() call
if peer_tables['Sites']:
columns = peer_tables['Sites'][0].keys()
site['peer_id'] = peer_id
site['peer_site_id'] = peer_site_id
- timers['site'] = time.time() - start
+ now=time.time()
+ timers['site'] = now - start
+ start = now
#
# XXX Synchronize foreign key types
# Synchronize foreign keys
#
- start = time.time()
# Compare only the columns returned by the GetPeerData() call
if peer_tables['Keys']:
#
start = time.time()
+ substart = start
# Compare only the columns returned by the GetPeerData() call
if peer_tables['Persons']:
persons_at_peer = dict([(peer_person['person_id'], peer_person) \
for peer_person in peer_tables['Persons']])
+ now=time.time()
+ timers [ 'persons-1' ] = now - substart
+ substart=now
+
# XXX Do we care about membership in foreign site(s)?
# Synchronize new set (still keyed on foreign person_id)
- peer_persons = sync(old_peer_persons, persons_at_peer, Person)
+ yyy={}
+ peer_persons = sync(old_peer_persons, persons_at_peer, Person,yyy)
+ for key in yyy:
+ timers[ 'persons-'+key ] = yyy[key]
+
+ now=time.time()
+ timers [ 'persons-2' ] = now - substart
+ substart=now
+ subsubstart=now
+
+ for key in ['persons-31','persons-32','persons-33','persons-34','persons-35','persons-36','person3-added']:
+ timers[key]=0
+
+ # allows to retrieve local_key_id from a peer_key_id, if any
+ peer_key_id_from_local_key_id = dict( \
+ [ (key['key_id'],peer_key_id) for (peer_key_id,key) in peer_keys.items()])
for peer_person_id, person in peer_persons.iteritems():
+
+ now=time.time()
+ timers [ 'persons-36' ] += (now - subsubstart)
+ subsubstart=now
+
# Bind any newly cached users to peer
if peer_person_id not in old_peer_persons:
peer.add_person(person, peer_person_id, commit = False)
person['peer_id'] = peer_id
person['peer_person_id'] = peer_person_id
person['key_ids'] = []
+ timers['person3-added'] += 1
+
+ now=time.time()
+ timers [ 'persons-31' ] += (now - subsubstart)
+ subsubstart=now
# User as viewed by peer
peer_person = persons_at_peer[peer_person_id]
old_person_keys = dict(filter(lambda (peer_key_id, key): \
key['key_id'] in person['key_ids'],
peer_keys.items()))
+ print 'old_person_keys',old_person_keys.keys()
+
+ old_person_key_ids_set = set(\
+ [ peer_key_id_from_local_key_id[local_key_id] for local_key_id in person['key_ids']])
+ print 'old_person_keys_set',old_person_key_ids_set
+
+
+ now=time.time()
+ timers [ 'persons-33' ] += (now - subsubstart)
+ subsubstart=now
# Foreign keys that should belong to the user
person_keys = dict(filter(lambda (peer_key_id, key): \
peer_key_id in peer_person['key_ids'],
peer_keys.items()))
+ print 'person_keys',person_keys.keys()
+
+ person_keys_new = dict( [ (peer_key_id,peer_keys[peer_key_id]) \
+ for peer_key_id in peer_person['key_ids'] ])
+ print 'person_keys_new',person_keys_new.keys()
+
+
+ now=time.time()
+ timers [ 'persons-34' ] += (now - subsubstart)
+ subsubstart=now
# Remove stale keys from user
for peer_key_id in (set(old_person_keys.keys()) - set(person_keys.keys())):
+# for peer_key_id in (old_person_key_ids_set - set(person_keys.keys())):
person.remove_key(old_person_keys[peer_key_id], commit = False)
+ now=time.time()
+ timers [ 'persons-35' ] += (now - subsubstart)
+ subsubstart=now
+
# Add new keys to user
for peer_key_id in (set(person_keys.keys()) - set(old_person_keys.keys())):
+# for peer_key_id in (set(person_keys.keys()) - old_person_key_ids_set):
person.add_key(person_keys[peer_key_id], commit = False)
+ now=time.time()
+ timers [ 'persons-36' ] += (now - subsubstart)
+ subsubstart=now
+
+ now=time.time()
+ timers [ 'persons-3' ] = now - substart
+ substart=now
+
timers['persons'] = time.time() - start
#
# XXX Synchronize foreign boot states
#
+ start = time.time()
+
boot_states = BootStates(self.api).dict()
#
# Synchronize foreign nodes
#
- start = time.time()
# Compare only the columns returned by the GetPeerData() call
if peer_tables['Nodes']:
# XXX Synchronize foreign slice instantiation states
#
+ start = time.time()
+
slice_instantiations = SliceInstantiations(self.api).dict()
#
# Synchronize foreign slices
#
- start = time.time()
-
# Compare only the columns returned by the GetPeerData() call
if peer_tables['Slices']:
columns = peer_tables['Slices'][0].keys()
# by hand, are not touched.
timers['slices'] = time.time() - start
+ start=time.time()
# Update peer itself and commit
peer.sync(commit = True)
+ timers['sync'] = time.time() - start
+
return timers