#
# Thierry Parmentelat - INRIA
-#
-# $Id$
-
+#
+import os
+import sys
+import fcntl
import time
-from PLC.Debug import log
+from PLC.Logger import logger
from PLC.Faults import *
from PLC.Method import Method
from PLC.Parameter import Parameter, Mixed
from PLC.Nodes import Node, Nodes
from PLC.SliceInstantiations import SliceInstantiations
from PLC.Slices import Slice, Slices
+from PLC.Roles import Role, Roles
-verbose=False
-
+# settings
# initial version was doing only one final commit
# * set commit_mode to False to get that behaviour
# * set comit_mode to True to get everything synced at once
-commit_mode=True
-
-def message (to_print=None,verbose_only=False):
+# the issue with the 'one-commit-at-the-end' approach is
+# that the db gets basically totally locked during too long
+# causing various issues/crashes in the rest of the system
+commit_mode = True
+
+# turn this to False only if both ends have the same db schema
+# compatibility mode is a bit slower but probably safer on the long run
+compatibility = True
+
+# debugging
+# for verbose output
+verbose = False
+use_cache = None
+# for debugging specific entries - display detailed info on selected objs
+focus_type = None # set to e.g. 'Person'
+# set to a list of ids (e.g. person_ids) - remote or local ids should work
+focus_ids = []
+# DEBUGGING SETTINGS example
+# set to a filename for using cached data when debugging
+# WARNING: does *not* actually connect to the peer in this case
+# or more precisely, connect only if the file is not found
+# i.e. the first time
+# use_cache = "/var/log/peers/getpeerdata.json"
+# verbose = True
+# focus_type = 'Person'
+# focus_ids = [621, 1088]
+
+
+########## helpers
+
+def message(to_print=None, verbose_only=False):
if verbose_only and not verbose:
return
- print >> log, time.strftime("%m-%d-%H-%M-%S:"),
- if to_print:
- print >>log, to_print
+ logger.info(to_print)
+
+
+def message_verbose(to_print=None, header='VERBOSE'):
+ message("{}> {}".format(header, to_print), verbose_only=True)
+
+
+# to avoid several instances running at the same time
+class FileLock:
+ """
+ Lock/Unlock file
+ """
+
+ def __init__(self, file_path, expire=60 * 60 * 2):
+ self.expire = expire
+ self.fpath = file_path
+ self.fd = None
+
+ def lock(self):
+ if os.path.exists(self.fpath):
+ if (time.time() - os.stat(self.fpath).st_ctime) > self.expire:
+ try:
+ os.unlink(self.fpath)
+ except Exception, e:
+ message('FileLock.lock({}) : {}'.format(self.fpath, e))
+ return False
+ try:
+ self.fd = open(self.fpath, 'w')
+ fcntl.flock(self.fd, fcntl.LOCK_EX | fcntl.LOCK_NB)
+ except IOError, e:
+ message('FileLock.lock({}) : {}'.format(self.fpath, e))
+ return False
+ return True
+
+ def unlock(self):
+ try:
+ fcntl.flock(self.fd, fcntl.LOCK_UN | fcntl.LOCK_NB)
+ self.fd.close()
+ except IOError, e:
+ message('FileLock.unlock({}) : {}'.format(self.fpath, e))
-def message_verbose(to_print=None):
- message(to_print,verbose_only=True)
class RefreshPeer(Method):
"""
Auth(),
Mixed(Peer.fields['peer_id'],
Peer.fields['peername']),
- ]
-
- returns = Parameter(int, "1 if successful")
+ ]
+
+ returns = Parameter(dict, "various timers")
+
+ # the columns ignored in the comparison - it is safe to ignore:
+ # (*) the primary key - obviously this is not expected to match
+ # (*) peer_id and the transcode key, likewise
+ # (*) all identifiers that refer to other objects in the db
+ # like e.g. Person.site_ids since this is managed separately
+ # and does not make sense any way
+ # (*) we also ignore things like date_created and last_updated
+ # that refer to local db creation/update
+ ignore_site_fields = [
+ 'site_id', 'peer_id', 'peer_site_id',
+ 'address_ids', 'node_ids', 'person_ids', 'pcu_ids', 'slice_ids', 'site_tag_ids',
+ 'date_created', 'last_updated',
+ ]
+ ignore_key_fields = [
+ 'key_id', 'peer_id', 'peer_key_id',
+ 'person_id',
+ ]
+ ignore_person_fields = [
+ 'person_id', 'peer_id', 'peer_person_id',
+ 'key_ids', 'slice_ids', 'person_tag_ids', 'role_ids', 'roles', 'site_ids',
+ 'date_created', 'last_updated',
+ ]
+ ignore_node_fields = [
+ 'node_id', 'peer_id', 'peer_node_id',
+ 'node_tag_ids', 'interface_ids', 'slice_ids', 'nodegroup_ids', 'pcu_ids', 'ports',
+ 'date_created', 'last_updated',
+ # somehow those won't print in the ple db
+ 'last_download', 'last_contact', 'last_pcu_reboot', 'last_boot',
+ 'last_time_spent_offline', 'last_time_spent_online', 'last_pcu_confirmation',
+ ]
+ ignore_slice_fields = [
+ 'slice_id', 'peer_id', 'peer_slice_id',
+ 'person_ids', 'slice_tag_ids', 'node_ids',
+ 'created',
+ ]
def call(self, auth, peer_id_or_peername):
+ ret_val = None
+ peername = Peers(self.api, [peer_id_or_peername], [
+ 'peername'])[0]['peername']
+ file_lock = FileLock("/tmp/refresh-peer-{peername}.lock"
+ .format(peername=peername))
+ if not file_lock.lock():
+ raise Exception, "Another instance of RefreshPeer is running."
+ try:
+ ret_val = self.real_call(auth, peer_id_or_peername)
+ except Exception, e:
+ file_lock.unlock()
+ logger.exception("RefreshPeer caught exception - BEG")
+ message("RefreshPeer caught exception - END")
+ raise Exception, e
+ file_lock.unlock()
+ return ret_val
+
+ def real_call(self, auth, peer_id_or_peername):
# Get peer
- peers = Peers(self.api, [peer_id_or_peername])
+ peers = Peers(self.api, [peer_id_or_peername])
if not peers:
- raise PLCInvalidArgument, "No such peer '%s'" % unicode(peer_id_or_peername)
+ raise PLCInvalidArgument, "No such peer '{}'".format(unicode(peer_id_or_peername))
peer = peers[0]
peer_id = peer['peer_id']
+ peername = peer['peername']
- # Connect to peer API
+ # Connect to peer API
peer.connect()
timers = {}
# Get peer data
start = time.time()
- message('RefreshPeer starting up (commit_mode=%r)'%commit_mode)
- message('Issuing GetPeerData')
- peer_tables = peer.GetPeerData()
- # for smooth federation with 4.2 - ignore fields that are useless anyway, and rewrite boot_state
- boot_state_rewrite={'dbg':'safeboot','diag':'safeboot','disable':'disabled',
- 'inst':'reinstall','rins':'reinstall','new':'reinstall','rcnf':'reinstall'}
+ message('RefreshPeer starting up (commit_mode={})'.format(commit_mode))
+ if not use_cache:
+ message('Issuing GetPeerData')
+ peer_tables = peer.GetPeerData()
+ else:
+ import json
+ if os.path.isfile(use_cache):
+ message("use_cache: WARNING: using cached getpeerdata")
+ with open(use_cache) as storage:
+ peer_tables = json.load(storage)
+ else:
+ message("use_cache: issuing GetPeerData")
+ peer_tables = peer.GetPeerData()
+ message("use_cache: saving in cache {}".format(use_cache))
+ with open(use_cache, 'w') as storage:
+ json.dump(peer_tables, storage)
+
+ # additions in June 2017
+
+ # remove entries not marked as enabled
+ # actually the 'enabled' flag is present on 'Sites' and 'Persons'
+ # however we accept disabled slices as
+ # (*) they don't come and go too often
+ # (*) they may contain vlid nodes, that we would then lose
+ # if we were to discard those sites
+ # so bottom line, we filter out only disabled persons
+ for cls in ('Persons',) :
+ peer_tables[cls] = [
+ obj for obj in peer_tables[cls] if obj['enabled']
+ ]
+
+ # somehow we can see GetPeerData from PLC that contains references
+ # to nodes that are not exposed themselves
+ # which suggests some inconsistency on their end
+ # anyway, it's safer to sanitize the dataset to avoid corruption
+ exposed_peer_node_ids = { n['node_id'] for n in peer_tables['Nodes']}
+ for slice in peer_tables['Slices']:
+ before = len(slice['node_ids'])
+ slice['node_ids'] = [x for x in slice['node_ids'] if x in exposed_peer_node_ids]
+ after = len(slice['node_ids'])
+ if after != before:
+ message("{peername} slice {slicename} got sanitized - {diff} node entries removed out of {before}"
+ .format(peername=peername, slicename=slice['name'],
+ diff=before-after, before=before))
+
+ # end of additions
+
+ # for smooth federation with 4.2 - ignore fields that are useless
+ # anyway, and rewrite boot_state
+ boot_state_rewrite = {'dbg': 'safeboot', 'diag': 'safeboot', 'disable': 'disabled',
+ 'inst': 'reinstall', 'rins': 'reinstall', 'new': 'reinstall', 'rcnf': 'reinstall'}
for node in peer_tables['Nodes']:
- for key in ['nodenetwork_ids','dummybox_id']:
+ for key in ['nodenetwork_ids', 'dummybox_id']:
if key in node:
del node[key]
- if node['boot_state'] in boot_state_rewrite: node['boot_state']=boot_state_rewrite[node['boot_state']]
+ if node['boot_state'] in boot_state_rewrite:
+ node['boot_state'] = boot_state_rewrite[node['boot_state']]
for slice in peer_tables['Slices']:
for key in ['slice_attribute_ids']:
if key in slice:
del slice[key]
timers['transport'] = time.time() - start - peer_tables['db_time']
timers['peer_db'] = peer_tables['db_time']
- message_verbose('GetPeerData returned -> db=%d transport=%d'%(timers['peer_db'],timers['transport']))
+ message_verbose('GetPeerData returned -> db={} transport={}'
+ .format(timers['peer_db'], timers['transport']))
- def sync(objects, peer_objects, classobj):
+ def sync(objects, peer_objects, classobj, columns):
"""
Synchronizes two dictionaries of objects. objects should
be a dictionary of local objects keyed on their foreign
keyed on their foreign identifiers.
"""
- classname=classobj(self.api).__class__.__name__
- message_verbose('Entering sync on %s'%classname)
+ classname = classobj(self.api).__class__.__name__
+ primary_key = getattr(classobj, 'primary_key')
+ # display all peer objects of these types while looping
+ secondary_keys = {'Node': 'hostname', 'Slice': 'name',
+ 'Person': 'email', 'Site': 'login_base'}
+ secondary_key = None
+ if classname in secondary_keys:
+ secondary_key = secondary_keys[classname]
+
+ message_verbose('Entering sync on {} ({})'
+ .format(classname, primary_key))
synced = {}
# Delete stale objects
for peer_object_id, object in objects.iteritems():
if peer_object_id not in peer_objects:
- object.delete(commit = commit_mode)
- message("%s %s %s deleted"%(peer['peername'],classname, object[object.primary_key]))
+ object.delete(commit=commit_mode)
+ message("{} {} {} deleted"
+ .format(peername, classname, object[primary_key]))
total = len(peer_objects)
- count=1
- # set this to something realistic to trace down a given object(s)
- trace_type="Node"
- trace_ids=[]
- def trace (message):
- if classname == trace_type and peer_object_id in trace_ids:
- message_verbose('TRACE>>'+message)
-
+ count = 1
+
+ # peer_object_id, peer_object and object are open variables in the loop below...
+ # (local) object might be None if creating a new one
+ def in_focus():
+ if classname != focus_type:
+ return False
+ return (peer_object_id in focus_ids) \
+ or (object and (primary_key in object)
+ and (object[primary_key] in focus_ids))
+
+ def message_focus(message):
+ if in_focus():
+ # always show remote
+ message_verbose("peer_obj : {} [[{}]]".format(peer_object_id, peer_object),
+ header='FOCUS ' + message)
+ # show local object if a match was found
+ if object:
+ message_verbose("local_obj : <<{}>>".format(object),
+ header='FOCUS ' + message)
+
+ # the function to compare a local object with its candidate peer obj
+ # xxx probably faster when compatibility is False...
+ def equal_fields(object, peer_object, columns):
+ # fast version: must use __eq__() instead of == since
+ # peer_object may be a raw dict instead of a Peer object.
+ if not compatibility:
+ result = object.__eq__(peer_object)
+ if not result:
+ message_verbose("fast mode: difference found between {} and {}"
+ .format(object, peer_object))
+ return result
+ else:
+ for column in columns:
+ if object[column] != peer_object[column]:
+ message_verbose("difference found in column {}".format(column))
+ message_verbose("our object {}".format(object[column]))
+ message_verbose("remote object {}".format(peer_object[column]))
+ return False
+ return True
+
# Add/update new/existing objects
for peer_object_id, peer_object in peer_objects.iteritems():
- message_verbose ('DBG %s peer_object_id=%d (%d/%d)'%(classname,peer_object_id,count,total))
+ peer_object_name = ""
+ if secondary_key:
+ peer_object_name = "({})".format(peer_object[secondary_key])
+ message_verbose('{} peer_object_id={} {} ({}/{})'
+ .format(classname, peer_object_id, peer_object_name, count, total))
count += 1
- if classname == 'Node':
- message_verbose ('DBG>> hostname=%s'%peer_object['hostname'])
- elif classname == "Slice":
- message_verbose ('DBG>> slicename=%s'%peer_object['name'])
+ if peer_object_id in synced:
+ message("Warning: {peername} Skipping already added {classname}: {obj}"
+ .format(peername=peername,
+ classname=classname, obj=peer_object))
+ continue
+
if peer_object_id in objects:
# Update existing object
object = objects[peer_object_id]
# Replace foreign identifier with existing local
# identifier temporarily for the purposes of
# comparison.
- peer_object[object.primary_key] = object[object.primary_key]
+ peer_object[primary_key] = object[primary_key]
- # Must use __eq__() instead of == since
- # peer_object may be a raw dict instead of a Peer
- # object.
- trace ("in objects : comparing")
- if not object.__eq__(peer_object):
+ if not equal_fields(object, peer_object, columns):
# Only update intrinsic fields
- trace ("updating")
object.update(object.db_fields(peer_object))
- trace ("updated")
+ message_focus("DIFFERENCES : updated / syncing")
sync = True
- dbg = "changed"
+ action = "changed"
else:
- trace ("intact")
+ message_focus("UNCHANGED - left intact / not syncing")
sync = False
- dbg = None
+ action = None
# Restore foreign identifier
- peer_object[object.primary_key] = peer_object_id
+ peer_object[primary_key] = peer_object_id
else:
- trace ("not in objects -- creating")
+ object = None
# Add new object
object = classobj(self.api, peer_object)
- trace ("created")
# Replace foreign identifier with new local identifier
- del object[object.primary_key]
- trace ("forced clean id")
+ del object[primary_key]
+ message_focus("NEW -- created with clean id - syncing")
sync = True
- dbg = "added"
+ action = "added"
if sync:
- message_verbose("DBG>> syncing %s %d - commit_mode=%r"%(classname,peer_object_id,commit_mode))
+ message_verbose("syncing {classname} {id} - commit_mode={mode}"
+ .format(classname=classname,
+ id=peer_object_id, mode=commit_mode))
try:
- object.sync(commit = commit_mode)
+ object.sync(commit=commit_mode)
except PLCInvalidArgument, err:
- # Skip if validation fails
# XXX Log an event instead of printing to logfile
- message("Warning: %s Skipping invalid %s %r : %r"%(\
- peer['peername'], classname, peer_object, err))
+ # skip if validation fails
+ message("Warning: {peername} Skipping invalid {classname} ({err})\n{object}"
+ .format(peername=peername, classname=classname,
+ object=peer_object, err=err))
continue
synced[peer_object_id] = object
- if dbg:
- message("%s: %s %d %s"%(peer['peername'], classname, object[object.primary_key], dbg))
+ if action:
+ message("{peername}: ({count}/{total}) {classname} {primary} {name} {action}"
+ .format(peername=peername,
+ count=count, total=total,
+ classname=classname, primary=object[primary_key],
+ name=peer_object_name, action=action))
- message_verbose("Exiting sync on %s"%classname)
+ message_verbose("Exiting sync on {}".format(classname))
return synced
+ # over time, we've had issues with a given column being
+ # added on one side and not on the other
+ # this helper function computes the intersection of two list of
+ # fields/columns
+ def intersect(l1, l2):
+ if compatibility:
+ return list(set(l1).intersection(set(l2)))
+ else:
+ return l1
+
+ # some fields definitely need to be ignored
+ def ignore(l1, l2):
+ return list(set(l1).difference(set(l2)))
+
#
# Synchronize foreign sites
#
start = time.time()
- message('Dealing with Sites')
+ message('(1) Dealing with Sites')
# Compare only the columns returned by the GetPeerData() call
if peer_tables['Sites']:
columns = peer_tables['Sites'][0].keys()
+ columns = intersect(columns, Site.fields)
else:
columns = None
# Keyed on foreign site_id
- old_peer_sites = Sites(self.api, {'peer_id': peer_id}, columns).dict('peer_site_id')
- sites_at_peer = dict([(site['site_id'], site) for site in peer_tables['Sites']])
+ old_peer_sites = Sites(
+ self.api, {'peer_id': peer_id}, columns).dict('peer_site_id')
+ sites_at_peer = dict([(site['site_id'], site)
+ for site in peer_tables['Sites']])
# Synchronize new set (still keyed on foreign site_id)
- peer_sites = sync(old_peer_sites, sites_at_peer, Site)
+ peer_sites = sync(old_peer_sites, sites_at_peer, Site,
+ ignore(columns, RefreshPeer.ignore_site_fields))
for peer_site_id, site in peer_sites.iteritems():
# Bind any newly cached sites to peer
if peer_site_id not in old_peer_sites:
- peer.add_site(site, peer_site_id, commit = commit_mode)
+ peer.add_site(site, peer_site_id, commit=commit_mode)
site['peer_id'] = peer_id
site['peer_site_id'] = peer_site_id
# XXX Synchronize foreign key types
#
- message('Dealing with Keys')
+ message('(2) Dealing with Keys')
key_types = KeyTypes(self.api).dict()
# Compare only the columns returned by the GetPeerData() call
if peer_tables['Keys']:
columns = peer_tables['Keys'][0].keys()
+ columns = intersect(columns, Key.fields)
else:
columns = None
# Keyed on foreign key_id
- old_peer_keys = Keys(self.api, {'peer_id': peer_id}, columns).dict('peer_key_id')
- keys_at_peer = dict([(key['key_id'], key) for key in peer_tables['Keys']])
+ old_peer_keys = Keys(
+ self.api, {'peer_id': peer_id}, columns).dict('peer_key_id')
+ keys_at_peer = dict([(key['key_id'], key)
+ for key in peer_tables['Keys']])
# Fix up key_type references
for peer_key_id, key in keys_at_peer.items():
if key['key_type'] not in key_types:
# XXX Log an event instead of printing to logfile
- message("Warning: Skipping invalid %s key %r" % ( peer['peername'], key))
+ message("Warning: Skipping invalid {peername} key {key}"
+ .format(peername=peername, key=key))
del keys_at_peer[peer_key_id]
continue
# Synchronize new set (still keyed on foreign key_id)
- peer_keys = sync(old_peer_keys, keys_at_peer, Key)
+ peer_keys = sync(old_peer_keys, keys_at_peer, Key,
+ ignore(columns, RefreshPeer.ignore_key_fields))
for peer_key_id, key in peer_keys.iteritems():
# Bind any newly cached keys to peer
if peer_key_id not in old_peer_keys:
- peer.add_key(key, peer_key_id, commit = commit_mode)
+ peer.add_key(key, peer_key_id, commit=commit_mode)
key['peer_id'] = peer_id
key['peer_key_id'] = peer_key_id
start = time.time()
- message('Dealing with Persons')
+ message('(3) Dealing with Persons')
# Compare only the columns returned by the GetPeerData() call
if peer_tables['Persons']:
columns = peer_tables['Persons'][0].keys()
+ columns = intersect(columns, Person.fields)
else:
columns = None
# Keyed on foreign person_id
- old_peer_persons = Persons(self.api, {'peer_id': peer_id}, columns).dict('peer_person_id')
-
- # artificially attach the persons returned by GetPeerData to the new peer
- # this is because validate_email needs peer_id to be correct when checking for duplicates
- for person in peer_tables['Persons']:
- person['peer_id']=peer_id
- persons_at_peer = dict([(peer_person['person_id'], peer_person) \
+ old_peer_persons = Persons(
+ self.api, {'peer_id': peer_id}, columns).dict('peer_person_id')
+
+ # artificially attach the persons returned by GetPeerData to the new peer
+ # this is because validate_email needs peer_id to be correct when
+ # checking for duplicates
+ for person in peer_tables['Persons']:
+ person['peer_id'] = peer_id
+ persons_at_peer = dict([(peer_person['person_id'], peer_person)
for peer_person in peer_tables['Persons']])
# 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)
+ peer_persons = sync(old_peer_persons, persons_at_peer, Person,
+ ignore(columns, RefreshPeer.ignore_person_fields))
- # transcoder : retrieve a local key_id from a peer_key_id
- key_transcoder = dict ( [ (key['key_id'],peer_key_id) \
- for peer_key_id,key in peer_keys.iteritems()])
+ # transcoder : retrieve a local key_id from a peer_key_id
+ key_transcoder = dict([(key['key_id'], peer_key_id)
+ for peer_key_id, key in peer_keys.iteritems()])
for peer_person_id, person in peer_persons.iteritems():
# Bind any newly cached users to peer
if peer_person_id not in old_peer_persons:
- peer.add_person(person, peer_person_id, commit = commit_mode)
+ peer.add_person(person, peer_person_id, commit=commit_mode)
person['peer_id'] = peer_id
person['peer_person_id'] = peer_person_id
person['key_ids'] = []
# User as viewed by peer
peer_person = persons_at_peer[peer_person_id]
-
+
# Foreign keys currently belonging to the user
- old_person_key_ids = [key_transcoder[key_id] for key_id in person['key_ids'] \
- if key_transcoder[key_id] in peer_keys]
+ old_person_key_ids = [key_transcoder[key_id] for key_id in person['key_ids']
+ if key_transcoder[key_id] in peer_keys]
# Foreign keys that should belong to the user
- # this is basically peer_person['key_ids'], we just check it makes sense
- # (e.g. we might have failed importing it)
- person_key_ids = [ key_id for key_id in peer_person['key_ids'] if key_id in peer_keys]
+ # this is basically peer_person['key_ids'], we just check it makes sense
+ # (e.g. we might have failed importing it)
+ person_key_ids = [key_id for key_id in peer_person[
+ 'key_ids'] if key_id in peer_keys]
# Remove stale keys from user
- for key_id in (set(old_person_key_ids) - set(person_key_ids)):
- person.remove_key(peer_keys[key_id], commit = commit_mode)
- message ("%s Key %d removed from person %s"%(peer['peername'], key_id, person['email']))
+ for key_id in (set(old_person_key_ids) - set(person_key_ids)):
+ person.remove_key(peer_keys[key_id], commit=commit_mode)
+ message("{peername} Key {key_id} removed from person {email}"
+ .format(peername=peername,
+ key_id=key_id, email=person['email']))
# Add new keys to user
- for key_id in (set(person_key_ids) - set(old_person_key_ids)):
- person.add_key(peer_keys[key_id], commit = commit_mode)
- message ("%s Key %d added into person %s"%(peer['peername'],key_id, person['email']))
+ for key_id in (set(person_key_ids) - set(old_person_key_ids)):
+ #message("before add_key, passing person={}".format(person))
+ #message("before add_key, passing key={}".format(peer_keys[key_id]))
+ person.add_key(peer_keys[key_id], commit=commit_mode)
+ message("{} Key {} added into person {}"
+ .format(peername, key_id, person['email']))
timers['persons'] = time.time() - start
start = time.time()
- message('Dealing with Nodes (1)')
+ # NOTE: we do import disabled sites
+ message('(4) Dealing with Nodes (1)')
# Compare only the columns returned by the GetPeerData() call
if peer_tables['Nodes']:
columns = peer_tables['Nodes'][0].keys()
+ columns = intersect(columns, Node.fields)
else:
- # smooth federation with a 4.2 peer - ignore these fields that are useless anyway
columns = Node.fields
- if 'interface_ids' in columns: columns.remove('interface_ids')
- if 'dummybox_id' in columns: columns.remove('dummybox_id')
# Keyed on foreign node_id
- old_peer_nodes = Nodes(self.api, {'peer_id': peer_id}, columns).dict('peer_node_id')
- nodes_at_peer = dict([(node['node_id'], node) \
+ old_peer_nodes = Nodes(
+ self.api, {'peer_id': peer_id}, columns).dict('peer_node_id')
+ nodes_at_peer = dict([(node['node_id'], node)
for node in peer_tables['Nodes']])
# Fix up site_id and boot_states references
for peer_node_id, node in nodes_at_peer.items():
errors = []
if node['site_id'] not in peer_sites:
- errors.append("invalid site %d" % node['site_id'])
+ errors.append("invalid (or disabled) site {}".format(node['site_id']))
if node['boot_state'] not in boot_states:
- errors.append("invalid boot state %s" % node['boot_state'])
+ errors.append("invalid boot state {}".format(node['boot_state']))
if errors:
# XXX Log an event instead of printing to logfile
- message ("Warning: Skipping invalid %s node %r : " % (peer['peername'], node)\
- + ", ".join(errors))
+ message("Warning: Skipping invalid {peername} node {hostname} - {errors}"
+ .format(peername=peername,
+ hostname=node['hostname'], errors=", ".join(errors)))
del nodes_at_peer[peer_node_id]
continue
else:
node['site_id'] = peer_sites[node['site_id']]['site_id']
# Synchronize new set
- peer_nodes = sync(old_peer_nodes, nodes_at_peer, Node)
+ peer_nodes = sync(old_peer_nodes, nodes_at_peer, Node,
+ ignore(columns, RefreshPeer.ignore_node_fields))
for peer_node_id, node in peer_nodes.iteritems():
# Bind any newly cached foreign nodes to peer
if peer_node_id not in old_peer_nodes:
- peer.add_node(node, peer_node_id, commit = commit_mode)
+ peer.add_node(node, peer_node_id, commit=commit_mode)
node['peer_id'] = peer_id
node['peer_node_id'] = peer_node_id
#
start = time.time()
- message('Dealing with Nodes (2)')
+ message('(5) Dealing with Nodes (2)')
# Keyed on local node_id
local_nodes = Nodes(self.api).dict()
start = time.time()
- message('Dealing with Slices (1)')
+ message('(6) Dealing with Slices')
# Compare only the columns returned by the GetPeerData() call
if peer_tables['Slices']:
columns = peer_tables['Slices'][0].keys()
+ columns = intersect(columns, Slice.fields)
else:
columns = None
# Keyed on foreign slice_id
- old_peer_slices = Slices(self.api, {'peer_id': peer_id}, columns).dict('peer_slice_id')
- slices_at_peer = dict([(slice['slice_id'], slice) \
+ old_peer_slices = Slices(
+ self.api, {'peer_id': peer_id}, columns).dict('peer_slice_id')
+ slices_at_peer = dict([(slice['slice_id'], slice)
for slice in peer_tables['Slices']])
# Fix up site_id, instantiation, and creator_person_id references
for peer_slice_id, slice in slices_at_peer.items():
errors = []
if slice['site_id'] not in peer_sites:
- errors.append("invalid site %d" % slice['site_id'])
+ errors.append("invalid site {}".format(slice['site_id']))
if slice['instantiation'] not in slice_instantiations:
- errors.append("invalid instantiation %s" % slice['instantiation'])
+ errors.append("invalid instantiation {}"
+ .format(slice['instantiation']))
if slice['creator_person_id'] not in peer_persons:
# Just NULL it out
slice['creator_person_id'] = None
else:
- slice['creator_person_id'] = peer_persons[slice['creator_person_id']]['person_id']
+ slice['creator_person_id'] = peer_persons[
+ slice['creator_person_id']]['person_id']
if errors:
- message("Warning: Skipping invalid %s slice %r : " % (peer['peername'], slice) \
- + ", ".join(errors))
+ message("Warning: Skipping invalid {peername} slice {slice} : {errors}"
+ .format(peername=peername,
+ slice=slice, errors=", ".join(errors)))
del slices_at_peer[peer_slice_id]
continue
else:
slice['site_id'] = peer_sites[slice['site_id']]['site_id']
- # Synchronize new set
- peer_slices = sync(old_peer_slices, slices_at_peer, Slice)
+ # Synchronize new set
+ peer_slices = sync(old_peer_slices, slices_at_peer, Slice,
+ ignore(columns, RefreshPeer.ignore_slice_fields))
- message('Dealing with Slices (2)')
- # transcoder : retrieve a local node_id from a peer_node_id
- node_transcoder = dict ( [ (node['node_id'],peer_node_id) \
- for peer_node_id,node in peer_nodes.iteritems()])
- person_transcoder = dict ( [ (person['person_id'],peer_person_id) \
- for peer_person_id,person in peer_persons.iteritems()])
+ message('(7) Dealing with Nodes in Slices')
+ # transcoder : retrieve a local node_id from a peer_node_id
+ node_transcoder = dict([(node['node_id'], peer_node_id)
+ for peer_node_id, node in peer_nodes.iteritems()])
+ person_transcoder = dict([(person['person_id'], peer_person_id)
+ for peer_person_id, person in peer_persons.iteritems()])
for peer_slice_id, slice in peer_slices.iteritems():
# Bind any newly cached foreign slices to peer
if peer_slice_id not in old_peer_slices:
- peer.add_slice(slice, peer_slice_id, commit = commit_mode)
+ peer.add_slice(slice, peer_slice_id, commit=commit_mode)
slice['peer_id'] = peer_id
slice['peer_slice_id'] = peer_slice_id
slice['node_ids'] = []
peer_slice = slices_at_peer[peer_slice_id]
# Nodes that are currently part of the slice
- old_slice_node_ids = [ node_transcoder[node_id] for node_id in slice['node_ids'] \
- if node_transcoder[node_id] in peer_nodes]
+ old_slice_node_ids = [node_transcoder[node_id] for node_id in slice['node_ids']
+ if node_id in node_transcoder and node_transcoder[node_id] in peer_nodes]
# Nodes that should be part of the slice
- slice_node_ids = [ node_id for node_id in peer_slice['node_ids'] if node_id in peer_nodes]
+ slice_node_ids = [node_id for node_id in peer_slice['node_ids']
+ if node_id in peer_nodes]
# Remove stale nodes from slice
for node_id in (set(old_slice_node_ids) - set(slice_node_ids)):
- slice.remove_node(peer_nodes[node_id], commit = commit_mode)
- message ("%s node %s removed from slice %s"%(peer['peername'], peer_nodes[node_id]['hostname'], slice['name']))
+ slice.remove_node(peer_nodes[node_id], commit=commit_mode)
+ message("{peername} node {hostname} (id {node_id}) removed from slice {slicename} (id {slice_id})"
+ .format(peername=peername,
+ hostname=peer_nodes[node_id]['hostname'], node_id=peer_nodes[node_id]['node_id'],
+ slicename=slice['name'], slice_id=slice['slice_id']))
# Add new nodes to slice
for node_id in (set(slice_node_ids) - set(old_slice_node_ids)):
- slice.add_node(peer_nodes[node_id], commit = commit_mode)
- message ("%s node %s added into slice %s"%(peer['peername'], peer_nodes[node_id]['hostname'], slice['name']))
+ slice.add_node(peer_nodes[node_id], commit=commit_mode)
+ message("{peername} node {hostname} (id {node_id}) added into slice {slicename} (id {slice_id})"
+ .format(peername=peername,
+ hostname=peer_nodes[node_id]['hostname'], node_id=peer_nodes[node_id]['node_id'],
+ slicename=slice['name'], slice_id=slice['slice_id']))
+
+ if slice['slice_id'] == 225:
+ return
# N.B.: Local nodes that may have been added to the slice
# by hand, are removed. In other words, don't do this.
# Foreign users that are currently part of the slice
- #old_slice_person_ids = [ person_transcoder[person_id] for person_id in slice['person_ids'] \
- # if person_transcoder[person_id] in peer_persons]
- # An issue occurred with a user who registered on both sites (same email)
- # So the remote person could not get cached locally
- # The one-line map/filter style is nicer but ineffective here
- old_slice_person_ids = []
- for person_id in slice['person_ids']:
- if not person_transcoder.has_key(person_id):
- message ('WARNING : person_id %d in %s not transcodable (1) - skipped'%(person_id,slice['name']))
- elif person_transcoder[person_id] not in peer_persons:
- message('WARNING : person_id %d in %s not transcodable (2) - skipped'%(person_id,slice['name']))
- else:
- old_slice_person_ids += [person_transcoder[person_id]]
+ # old_slice_person_ids = [ person_transcoder[person_id] for person_id in slice['person_ids'] \
+ # if person_transcoder[person_id] in peer_persons]
+ # An issue occurred with a user who registered on both sites (same email)
+ # So the remote person could not get cached locally
+ # The one-line map/filter style is nicer but ineffective here
+ old_slice_person_ids = []
+ for person_id in slice['person_ids']:
+ if not person_transcoder.has_key(person_id):
+ message('WARNING : person_id {person_id} in {slicename} not transcodable (1) - skipped'
+ .format(person_id=person_id, slicename=slice['name']))
+ elif person_transcoder[person_id] not in peer_persons:
+ message('WARNING : person_id {person_id} in {slicename} not transcodable (2) - skipped'
+ .format(person_id=person_id, slicename=slice['name']))
+ else:
+ old_slice_person_ids += [person_transcoder[person_id]]
# Foreign users that should be part of the slice
- slice_person_ids = [ person_id for person_id in peer_slice['person_ids'] if person_id in peer_persons ]
+ slice_person_ids = [person_id for person_id in peer_slice[
+ 'person_ids'] if person_id in peer_persons]
# Remove stale users from slice
for person_id in (set(old_slice_person_ids) - set(slice_person_ids)):
- slice.remove_person(peer_persons[person_id], commit = commit_mode)
- message ("%s user %s removed from slice %s"%(peer['peername'],peer_persons[person_id]['email'], slice['name']))
+ slice.remove_person(
+ peer_persons[person_id], commit=commit_mode)
+ message("{peername} user {email} removed from slice {slicename}"
+ .format(peername=peername,
+ email=peer_persons[person_id]['email'],
+ slicename=slice['name']))
# Add new users to slice
for person_id in (set(slice_person_ids) - set(old_slice_person_ids)):
- slice.add_person(peer_persons[person_id], commit = commit_mode)
- message ("%s user %s added into slice %s"%(peer['peername'],peer_persons[person_id]['email'], slice['name']))
+ slice.add_person(peer_persons[person_id], commit=commit_mode)
+ message("{peername} user {email} added into slice {slicename}"
+ .format(peername=peername,
+ email=peer_persons[person_id]['email'],
+ slicename=slice['name']))
# N.B.: Local users that may have been added to the slice
# by hand, are not touched.
timers['slices'] = time.time() - start
+ #
+ # Persons x Sites
+ #
+ start = time.time()
+
+ message('(8) Dealing with Persons in Sites')
+
+ for peer_site_id, site in peer_sites.iteritems():
+ # Site as viewed by peer
+ peer_site = sites_at_peer[peer_site_id]
+
+ # Persons that are currently part of the site
+ old_site_person_ids = [person_transcoder[person_id] for person_id in site['person_ids']
+ if person_id in person_transcoder and person_transcoder[person_id] in peer_persons]
+
+ # Perons that should be part of the site
+ site_person_ids = [person_id for person_id in peer_site[
+ 'person_ids'] if person_id in peer_persons]
+
+ # Remove stale persons from site
+ for person_id in (set(old_site_person_ids) - set(site_person_ids)):
+ site.remove_person(peer_persons[person_id], commit=commit_mode)
+ message("{peername} person {email} removed from site {login_base}"
+ .format(peername=peername,
+ email=peer_persons[person_id]['email'],
+ login_base=site['login_base']))
+
+ # Add new persons to site
+ for person_id in (set(site_person_ids) - set(old_site_person_ids)):
+ site.add_person(peer_persons[person_id], commit=commit_mode)
+ message("{peername} person {email} added into site {login_base}"
+ .format(peername=peername,
+ email=peer_persons[person_id]['email'],
+ login_base=site['login_base']))
+
+ timers['sites-persons'] = time.time() - start
+
+ #
+ # Persons x Roles
+ #
+ start = time.time()
+
+ message('(9) Dealing with Roles for Persons')
+
+ roles = Roles(self.api)
+ roles_dict = dict([(role['role_id'], role) for role in roles])
+ for peer_person_id, person in peer_persons.iteritems():
+ # Person as viewed by peer
+ peer_person = persons_at_peer[peer_person_id]
+
+ # Roles that are currently attributed for the person
+ old_person_role_ids = [role_id for role_id in person['role_ids']]
+
+ # Roles that should be attributed to the person
+ person_role_ids = [role_id for role_id in peer_person['role_ids']]
+
+ # Remove stale roles
+ for role_id in (set(old_person_role_ids) - set(person_role_ids)):
+ person.remove_role(roles_dict[role_id], commit=commit_mode)
+ message("{peername} role {rolename} removed from person {email}"
+ .format(peername=peername,
+ rolename=roles_dict[role_id]['name'],
+ email=person['email']))
+
+ # Add new roles to person
+ for role_id in (set(person_role_ids) - set(old_person_role_ids)):
+ person.add_role(roles_dict[role_id], commit=commit_mode)
+ message("{peername} role {rolename} added from person {email}"
+ .format(peername=peername,
+ rolename=roles_dict[role_id]['name'],
+ email=person['email']))
+
+ timers['persons-roles'] = time.time() - start
+
# Update peer itself and commit
- peer.sync(commit = True)
+ peer.sync(commit=True)
return timers