#
# Thierry Parmentelat - INRIA
#
+# $Id: RefreshPeer.py,v 1.23 2007/03/23 19:05:16 thierry Exp $
-import xmlrpclib
+import time
+from PLC.Debug import log
from PLC.Faults import *
from PLC.Method import Method
from PLC.Parameter import Parameter, Mixed
from PLC.Auth import Auth
from PLC.Peers import Peer, Peers
+from PLC.Sites import Site, Sites
from PLC.Persons import Person, Persons
-from PLC.ForeignNodes import ForeignNode, ForeignNodes
+from PLC.KeyTypes import KeyType, KeyTypes
+from PLC.Keys import Key, Keys
+from PLC.BootStates import BootState, BootStates
+from PLC.Nodes import Node, Nodes
+from PLC.SliceInstantiations import SliceInstantiations
+from PLC.Slices import Slice, Slices
+verbose=False
class RefreshPeer(Method):
"""
- Query a peer PLC for its list of nodes, and refreshes
- the local database accordingly
-
- Returns None
+ Fetches site, node, slice, person and key data from the specified peer
+ and caches it locally; also deletes stale entries.
+ Upon successful completion, returns a dict reporting various timers.
+ Faults otherwise.
"""
-
+
roles = ['admin']
-
- accepts = [ Auth(),
- Parameter (int, "Peer id") ]
-
- returns = None
-
- def call (self, auth, peer_id):
-
- ### retrieve peer info
- peers = Peers (self.api)
- peer = peers[peer_id]
-
- ### retrieve account info
- person_id = peer['person_id']
- persons = Persons (self.api,[person_id])
- person = persons[person_id]
-
- ### build up foreign auth
- auth={ 'Username': person['email'],
- 'AuthMethod' : 'password',
- 'AuthString' : person['password'],
- 'Role' : 'admin' }
-
- ## connect to the peer's API
- apiserver = xmlrpclib.Server (peer['peer_url']+"/PLCAPI/")
- print 'auth',auth
- current_peer_nodes = apiserver.GetNodes(auth,[])
-
- ## manual feed for tests
-# n1 = {'hostname': 'n1.plc', 'boot_state': 'inst'}
-# n2 = {'hostname': 'n2.plc', 'boot_state': 'inst'}
-# n3 = {'hostname': 'n3.plc', 'boot_state': 'inst'}
- n11={'session': None, 'slice_ids': [], 'nodegroup_ids': [], 'last_updated': 1162884349, 'version': None, 'nodenetwork_ids': [], 'boot_state': 'inst', 'hostname': 'n11.plc1.org', 'site_id': 1, 'ports': None, 'pcu_ids': [], 'boot_nonce': None, 'node_id': 1, 'root_person_ids': [], 'key': None, 'date_created': 1162884349, 'model': None, 'conf_file_ids': [], 'ssh_rsa_key': None}
- n12={'session': None, 'slice_ids': [], 'nodegroup_ids': [], 'last_updated': 1162884349, 'version': None, 'nodenetwork_ids': [], 'boot_state': 'inst', 'hostname': 'n12.plc1.org', 'site_id': 1, 'ports': None, 'pcu_ids': [], 'boot_nonce': None, 'node_id': 1, 'root_person_ids': [], 'key': None, 'date_created': 1162884349, 'model': None, 'conf_file_ids': [], 'ssh_rsa_key': None}
- n21={'session': None, 'slice_ids': [], 'nodegroup_ids': [], 'last_updated': 1162884349, 'version': None, 'nodenetwork_ids': [], 'boot_state': 'boot', 'hostname': 'n21.plc2.org', 'site_id': 1, 'ports': None, 'pcu_ids': [], 'boot_nonce': None, 'node_id': 1, 'root_person_ids': [], 'key': None, 'date_created': 1162884349, 'model': None, 'conf_file_ids': [], 'ssh_rsa_key': None}
- n22={'session': None, 'slice_ids': [], 'nodegroup_ids': [], 'last_updated': 1162884349, 'version': None, 'nodenetwork_ids': [], 'boot_state': 'boot', 'hostname': 'n22.plc2.org', 'site_id': 1, 'ports': None, 'pcu_ids': [], 'boot_nonce': None, 'node_id': 1, 'root_person_ids': [], 'key': None, 'date_created': 1162884349, 'model': None, 'conf_file_ids': [], 'ssh_rsa_key': None}
-
-# current_peer_nodes = [n21,n22]
-
- ### now to the db
- # we get the whole table just in case
- # a host would have switched from one plc to the other
- foreign_nodes = ForeignNodes (self.api)
-
- ### mark entries for this peer outofdate
- for foreign_node in foreign_nodes.values():
- if foreign_node['peer_id'] == peer_id:
- foreign_node.uptodate=False
-
- ### these fields get copied through
- remote_fields = ['boot_state','model','version','date_created','date_updated']
-
- ### scan the new entries, and mark them uptodate
- for node in current_peer_nodes:
- hostname = node['hostname']
- foreign_node = foreign_nodes.get(hostname)
- if foreign_node:
- ### update it anyway
- foreign_node['cached'] = True
- foreign_node['peer_id'] = peer_id
- # copy other relevant fields
- for field in remote_fields:
- foreign_node[field]=node[field]
- # this row is valid
- foreign_node.uptodate = True
- else:
- foreign_nodes[hostname] = ForeignNode(self.api,
- {'hostname':hostname,
- 'cached':True,
- 'peer_id':peer_id,})
- for field in remote_fields:
- foreign_nodes[hostname][field]=node[field]
-
- foreign_nodes[hostname].sync()
-
- ### delete entries that are not uptodate
- [ x.delete() for x in foreign_nodes.values() if not x.uptodate ]
-
+
+ accepts = [
+ Auth(),
+ Mixed(Peer.fields['peer_id'],
+ Peer.fields['peername']),
+ ]
+
+ returns = Parameter(int, "1 if successful")
+
+ def call(self, auth, peer_id_or_peername):
+ # Get peer
+ peers = Peers(self.api, [peer_id_or_peername])
+ if not peers:
+ raise PLCInvalidArgument, "No such peer '%s'" % unicode(peer_id_or_peername)
+ peer = peers[0]
+ peer_id = peer['peer_id']
+
+ # Connect to peer API
+ peer.connect()
+
+ timers = {}
+
+ # Get peer data
+ start = time.time()
+ print >>log, 'Issuing GetPeerData'
+ peer_tables = peer.GetPeerData()
+ timers['transport'] = time.time() - start - peer_tables['db_time']
+ timers['peer_db'] = peer_tables['db_time']
+ if verbose:
+ print >>log, 'GetPeerData returned -> db=%d transport=%d'%(timers['peer_db'],timers['transport'])
+
+ def sync(objects, peer_objects, classobj):
+ """
+ Synchronizes two dictionaries of objects. objects should
+ be a dictionary of local objects keyed on their foreign
+ identifiers. peer_objects should be a dictionary of
+ foreign objects keyed on their local (i.e., foreign to us)
+ identifiers. Returns a final dictionary of local objects
+ keyed on their foreign identifiers.
+ """
+
+ if verbose:
+ print >>log, 'Entering sync on',classobj(self.api).__class__.__name__
+
+ synced = {}
+
+ # Delete stale objects
+ for peer_object_id, object in objects.iteritems():
+ if peer_object_id not in peer_objects:
+ object.delete(commit = False)
+ print >> log, peer['peername'],classobj(self.api).__class__.__name__, object[object.primary_key],"deleted"
+
+ # Add/update new/existing objects
+ for peer_object_id, peer_object in peer_objects.iteritems():
+ 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]
+
+ # Must use __eq__() instead of == since
+ # peer_object may be a raw dict instead of a Peer
+ # object.
+ if not object.__eq__(peer_object):
+ # Only update intrinsic fields
+ object.update(object.db_fields(peer_object))
+ sync = True
+ dbg = "changed"
+ else:
+ sync = False
+ dbg = None
+
+ # Restore foreign identifier
+ peer_object[object.primary_key] = peer_object_id
+ else:
+ # Add new object
+ object = classobj(self.api, peer_object)
+ # Replace foreign identifier with new local identifier
+ del object[object.primary_key]
+ sync = True
+ dbg = "added"
+
+ if sync:
+ try:
+ object.sync(commit = False)
+ 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
+ continue
+
+ synced[peer_object_id] = object
+
+ if dbg:
+ print >> log, peer['peername'], classobj(self.api).__class__.__name__, object[object.primary_key], dbg
+
+ if verbose:
+ print >>log, 'Exiting sync on',classobj(self.api).__class__.__name__
+
+ return synced
+
+ #
+ # Synchronize foreign sites
+ #
+
+ start = time.time()
+
+ print >>log, 'Dealing with Sites'
+
+ # Compare only the columns returned by the GetPeerData() call
+ if peer_tables['Sites']:
+ columns = peer_tables['Sites'][0].keys()
+ 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']])
+
+ # Synchronize new set (still keyed on foreign site_id)
+ peer_sites = sync(old_peer_sites, sites_at_peer, Site)
+
+ 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 = False)
+ site['peer_id'] = peer_id
+ site['peer_site_id'] = peer_site_id
+
+ timers['site'] = time.time() - start
+
+ #
+ # XXX Synchronize foreign key types
+ #
+
+ print >>log, 'Dealing with Keys'
+
+ key_types = KeyTypes(self.api).dict()
+
+ #
+ # Synchronize foreign keys
+ #
+
+ start = time.time()
+
+ # Compare only the columns returned by the GetPeerData() call
+ if peer_tables['Keys']:
+ columns = peer_tables['Keys'][0].keys()
+ 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']])
+
+ # 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
+ print >> log, "Warning: Skipping invalid %s key:" % peer['peername'], \
+ key, ": invalid key type", key['key_type']
+ 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)
+ 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 = False)
+ key['peer_id'] = peer_id
+ key['peer_key_id'] = peer_key_id
+
+ timers['keys'] = time.time() - start
+
+ #
+ # Synchronize foreign users
+ #
+
+ start = time.time()
+
+ print >>log, 'Dealing with Persons'
+
+ # Compare only the columns returned by the GetPeerData() call
+ if peer_tables['Persons']:
+ columns = peer_tables['Persons'][0].keys()
+ 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) \
+ 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)
+
+ # 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 = False)
+ 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]
+
+ # 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]
+
+ # 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 = False)
+ print >> log, peer['peername'], 'Key', key_id, 'removed from', 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 = False)
+ print >> log, peer['peername'], 'Key', key_id, 'added into', person['email']
+
+ timers['persons'] = time.time() - start
+
+ #
+ # XXX Synchronize foreign boot states
+ #
+
+ boot_states = BootStates(self.api).dict()
+
+ #
+ # Synchronize foreign nodes
+ #
+
+ start = time.time()
+
+ print >>log, 'Dealing with Nodes'
+
+ # Compare only the columns returned by the GetPeerData() call
+ if peer_tables['Nodes']:
+ columns = peer_tables['Nodes'][0].keys()
+ else:
+ columns = None
+
+ # 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) \
+ 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'])
+ if node['boot_state'] not in boot_states:
+ errors.append("invalid boot state %s" % node['boot_state'])
+ if errors:
+ # XXX Log an event instead of printing to logfile
+ print >> log, "Warning: Skipping invalid %s node:" % peer['peername'], \
+ node, ":", ", ".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)
+
+ 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 = False)
+ node['peer_id'] = peer_id
+ node['peer_node_id'] = peer_node_id
+
+ timers['nodes'] = time.time() - start
+
+ #
+ # Synchronize local nodes
+ #
+
+ start = time.time()
+
+ # Keyed on local node_id
+ local_nodes = Nodes(self.api).dict()
+
+ for node in peer_tables['PeerNodes']:
+ # Foreign identifier for our node as maintained by peer
+ peer_node_id = node['node_id']
+ # Local identifier for our node as cached by peer
+ node_id = node['peer_node_id']
+ if node_id in local_nodes:
+ # Still a valid local node, add it to the synchronized
+ # set of local node objects keyed on foreign node_id.
+ peer_nodes[peer_node_id] = local_nodes[node_id]
+
+ timers['local_nodes'] = time.time() - start
+
+ #
+ # XXX Synchronize foreign slice instantiation states
+ #
+
+ slice_instantiations = SliceInstantiations(self.api).dict()
+
+ #
+ # Synchronize foreign slices
+ #
+
+ start = time.time()
+
+ print >>log, 'Dealing with Slices'
+
+ # Compare only the columns returned by the GetPeerData() call
+ if peer_tables['Slices']:
+ columns = peer_tables['Slices'][0].keys()
+ 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) \
+ 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'])
+ if slice['instantiation'] not in slice_instantiations:
+ errors.append("invalid instantiation %s" % 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']
+ if errors:
+ print >> log, "Warning: Skipping invalid %s slice:" % peer['peername'], \
+ slice, ":", ", ".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)
+
+ # 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 = False)
+ slice['peer_id'] = peer_id
+ slice['peer_slice_id'] = peer_slice_id
+ slice['node_ids'] = []
+ slice['person_ids'] = []
+
+ # Slice as viewed by peer
+ 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]
+
+ # 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]
+
+ # 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 = False)
+ print >> log, peer['peername'], 'Node', peer_nodes[node_id]['hostname'], 'removed from', slice['name']
+
+ # 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 = False)
+ print >> log, peer['peername'], 'Node', peer_nodes[node_id]['hostname'], 'added into', slice['name']
+
+ # 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):
+ print >> log, 'WARNING : person_id %d in %s not transcodable (1) - skipped'%(person_id,slice['name'])
+ elif person_transcoder[person_id] not in peer_persons:
+ print >> log, 'WARNING : person_id %d in %s not transcodable (2) - skipped'%(person_id,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 ]
+
+ # 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 = False)
+ print >> log, peer['peername'], 'User', peer_persons[person_id]['email'], 'removed from', 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 = False)
+ print >> log, peer['peername'], 'User', peer_persons[person_id]['email'], 'added into', slice['name']
+
+ # N.B.: Local users that may have been added to the slice
+ # by hand, are not touched.
+
+ timers['slices'] = time.time() - start
+
+ # Update peer itself and commit
+ peer.sync(commit = True)
+
+ return timers