table_name = 'keys'
primary_key = 'key_id'
- join_tables = ['person_key']
+ join_tables = ['person_key', 'peer_key']
fields = {
'key_id': Parameter(int, "Key identifier"),
'key_type': Parameter(str, "Key type"),
'key': Parameter(str, "Key value", max = 4096),
- 'peer_id': Parameter(int, "Peer at which this node is managed", nullok = True),
+ 'person_id': Parameter(int, "User to which this key belongs", nullok = True),
+ 'peer_id': Parameter(int, "Peer to which this key belongs", nullok = True),
+ 'peer_key_id': Parameter(int, "Foreign key identifier at peer", nullok = True),
}
# for Cache
database.
"""
- def __init__(self, api, key_filter = None, columns = None):
+ def __init__(self, api, key_filter = None, columns = None, peer_id = None):
Table.__init__(self, api, Key, columns)
- sql = "SELECT %s FROM keys WHERE is_blacklisted IS False" % \
+ sql = "SELECT %s FROM view_keys WHERE is_blacklisted IS False" % \
", ".join(self.columns)
+ if peer_id is None:
+ sql += " AND peer_id IS NULL"
+ elif isinstance(peer_id, (int, long)):
+ sql += " AND peer_id = %d" % peer_id
+
if key_filter is not None:
if isinstance(key_filter, (list, tuple, set)):
key_filter = Filter(Key.fields, {'key_id': key_filter})
# Mark Huang <mlhuang@cs.princeton.edu>
# Copyright (C) 2006 The Trustees of Princeton University
#
-# $Id: Nodes.py,v 1.27 2006/11/30 10:12:01 thierry Exp $
+# $Id: Nodes.py,v 1.28 2006/12/05 16:45:03 thierry Exp $
#
from types import StringTypes
table_name = 'nodes'
primary_key = 'node_id'
- join_tables = ['nodegroup_node', 'conf_file_node', 'nodenetworks', 'pcu_node', 'slice_node', 'slice_attribute', 'node_session']
+ join_tables = ['nodegroup_node', 'conf_file_node', 'nodenetworks', 'pcu_node', 'slice_node', 'slice_attribute', 'node_session', 'peer_node']
fields = {
'node_id': Parameter(int, "Node identifier"),
'hostname': Parameter(str, "Fully qualified hostname", max = 255),
'slice_ids': Parameter([int], "List of slices on this node"),
'pcu_ids': Parameter([int], "List of PCUs that control this node"),
'ports': Parameter([int], "List of PCU ports that this node is connected to"),
- 'peer_id': Parameter(int, "Peer at which this node is managed", nullok = True),
+ 'peer_id': Parameter(int, "Peer to which this node belongs", nullok = True),
+ 'peer_node_id': Parameter(int, "Foreign node identifier at peer", nullok = True),
}
# for Cache
return boot_state
- # timestamps
- def validate_date_created (self, timestamp):
- return self.validate_timestamp (timestamp)
- def validate_last_updated (self, timestamp):
- return self.validate_timestamp (timestamp)
+ validate_date_created = Row.validate_timestamp
+ validate_last_updated = Row.validate_timestamp
def delete(self, commit = True):
"""
database.
"""
- def __init__(self, api, node_filter = None, columns = None):
+ def __init__(self, api, node_filter = None, columns = None, peer_id = None):
Table.__init__(self, api, Node, columns)
sql = "SELECT %s FROM view_nodes WHERE deleted IS False" % \
", ".join(self.columns)
+ if peer_id is None:
+ sql += " AND peer_id IS NULL"
+ elif isinstance(peer_id, (int, long)):
+ sql += " AND peer_id = %d" % peer_id
+
if node_filter is not None:
if isinstance(node_filter, (list, tuple, set)):
# Separate the list into integers and strings
sql += " AND (%s)" % node_filter.sql(api, "AND")
self.selectall(sql)
-
table_name = 'peers'
primary_key = 'peer_id'
+ join_tables = ['peer_site', 'peer_person', 'peer_key', 'peer_node',
+ 'peer_slice_attribute_type', 'peer_slice_attribute', 'peer_slice']
fields = {
'peer_id': Parameter (int, "Peer identifier"),
'peername': Parameter (str, "Peer name"),
'key': Parameter(str, "Peer GPG public key"),
'cacert': Parameter(str, "Peer SSL public certificate"),
### cross refs
- 'site_ids': Parameter([int], "List of sites for this peer is authoritative"),
- 'person_ids': Parameter([int], "List of users for this peer is authoritative"),
+ 'site_ids': Parameter([int], "List of sites for which this peer is authoritative"),
+ 'person_ids': Parameter([int], "List of users for which this peer is authoritative"),
'key_ids': Parameter([int], "List of keys for which this peer is authoritative"),
'node_ids': Parameter([int], "List of nodes for which this peer is authoritative"),
- 'attribute_type_ids': Parameter([int], "List of slice attribute types for which this peer is authoritative"),
- 'slice_attribute_ids': Parameter([int], "List of slice attributes for which this peer is authoritative"),
'slice_ids': Parameter([int], "List of slices for which this peer is authoritative"),
}
+ def validate_peername(self, peername):
+ if not len(peername):
+ raise PLCInvalidArgument, "Peer name must be specified"
+
+ conflicts = Peers(self.api, [peername])
+ for peer in conflicts:
+ if 'peer_id' not in self or self['peer_id'] != peer['peer_id']:
+ raise PLCInvalidArgument, "Peer name already in use"
+
+ return peername
+
def validate_peer_url(self, url):
"""
Validate URL. Must be HTTPS.
# Remove all related entities
for obj in \
- Sites(self.api, self['site_ids']) + \
- Persons(self.api, self['person_ids']) + \
- Keys(self.api, self['key_ids']) + \
- Nodes(self.api, self['node_ids']) + \
- SliceAttributeTypes(self.api, self['attribute_type_ids']) + \
- SliceAttributes(self.api, self['slice_attribute_ids']) + \
- Slices(self.api, self['slice_ids']):
+ Slices(self.api, self['slice_ids'], peer_id = self['peer_id']) + \
+ Keys(self.api, self['key_ids'], peer_id = self['peer_id']) + \
+ Persons(self.api, self['person_ids'], peer_id = self['peer_id']) + \
+ Nodes(self.api, self['node_ids'], peer_id = self['peer_id']) + \
+ Sites(self.api, self['site_ids'], peer_id = self['peer_id']):
assert obj['peer_id'] == self['peer_id']
obj.delete(commit = False)
self['deleted'] = True
self.sync(commit)
+ def add_site(self, site, peer_site_id, commit = True):
+ """
+ Associate a local site entry with this peer.
+ """
+
+ add = Row.add_object(Site, 'peer_site')
+ add(self, site,
+ {'peer_id': self['peer_id'],
+ 'site_id': site['site_id'],
+ 'peer_site_id': peer_site_id},
+ commit = commit)
+
+ def add_person(self, person, peer_person_id, commit = True):
+ """
+ Associate a local user entry with this peer.
+ """
+
+ add = Row.add_object(Person, 'peer_person')
+ add(self, person,
+ {'peer_id': self['peer_id'],
+ 'person_id': person['person_id'],
+ 'peer_person_id': peer_person_id},
+ commit = commit)
+
+ def add_key(self, key, peer_key_id, commit = True):
+ """
+ Associate a local key entry with this peer.
+ """
+
+ add = Row.add_object(Key, 'peer_key')
+ add(self, key,
+ {'peer_id': self['peer_id'],
+ 'key_id': key['key_id'],
+ 'peer_key_id': peer_key_id},
+ commit = commit)
+
+ def add_node(self, node, peer_node_id, commit = True):
+ """
+ Associate a local node entry with this peer.
+ """
+
+ add = Row.add_object(Node, 'peer_node')
+ add(self, node,
+ {'peer_id': self['peer_id'],
+ 'node_id': node['node_id'],
+ 'peer_node_id': peer_node_id},
+ commit = commit)
+
+ def add_slice_attribute_type(self, slice_attribute_type, peer_attribute_type_id, commit = True):
+ """
+ Associate a local slice attribute type entry with this peer.
+ """
+
+ add = Row.add_object(SliceAttributeType, 'peer_slice_attribute_type')
+ add(self, slice_attribute_type,
+ {'peer_id': self['peer_id'],
+ 'attribute_type_id': slice_attribute_type['attribute_type_id'],
+ 'peer_attribute_type_id': peer_attribute_type_id},
+ commit = commit)
+
+ def add_slice_attribute(self, slice_attribute, peer_slice_attribute_id, commit = True):
+ """
+ Associate a local slice_attribute entry with this peer.
+ """
+
+ add = Row.add_object(SliceAttribute, 'peer_slice_attribute')
+ add(self, slice_attribute,
+ {'peer_id': self['peer_id'],
+ 'slice_attribute_id': slice_attribute['slice_attribute_id'],
+ 'peer_slice_attribute_id': peer_slice_attribute_id},
+ commit = commit)
+
+ def add_slice(self, slice, peer_slice_id, commit = True):
+ """
+ Associate a local slice entry with this peer.
+ """
+
+ add = Row.add_object(Slice, 'peer_slice')
+ add(self, slice,
+ {'peer_id': self['peer_id'],
+ 'slice_id': slice['slice_id'],
+ 'peer_slice_id': peer_slice_id},
+ commit = commit)
+
def connect(self, **kwds):
"""
Connect to this peer via XML-RPC.
return wrapper
- def __getattr__(self, methodname):
+ def __getattr__(self, attr):
"""
- Fetch a callable for the specified method.
+ Returns a callable API function if attr is the name of a
+ PLCAPI function; otherwise, returns the specified attribute.
"""
- function = getattr(self.server, methodname)
-
try:
- # Figure out if the function is a PLCAPI function and
- # requires an authentication structure as its first
- # argument.
+ # Figure out if the specified attribute is the name of a
+ # PLCAPI function. If so and the function requires an
+ # authentication structure as its first argument, return a
+ # callable that automagically adds an auth struct to the
+ # call.
+ methodname = attr
api_function = self.api.callable(methodname)
if api_function.accepts and \
(isinstance(api_function.accepts[0], PLC.Auth.Auth) or \
(isinstance(api_function.accepts[0], Mixed) and \
- filter(lambda param: isinstance(param, Auth), func.accepts[0]))):
- function = self.add_auth(function, methodname)
+ filter(lambda param: isinstance(param, Auth), api_function.accepts[0]))):
+ function = getattr(self.server, methodname)
+ return self.add_auth(function, methodname)
except Exception, err:
pass
- return function
+ if hasattr(self, attr):
+ return getattr(self, attr)
+ else:
+ raise AttributeError, "type object 'Peer' has no attribute '%s'" % attr
class Peers (Table):
"""
# Mark Huang <mlhuang@cs.princeton.edu>
# Copyright (C) 2006 The Trustees of Princeton University
#
-# $Id: Persons.py,v 1.28 2007/01/05 19:50:20 tmack Exp $
+# $Id: Persons.py,v 1.29 2007/01/08 16:34:12 tmack Exp $
#
from types import StringTypes
from PLC.Parameter import Parameter
from PLC.Filter import Filter
from PLC.Table import Row, Table
+from PLC.Roles import Role, Roles
from PLC.Keys import Key, Keys
from PLC.Messages import Message, Messages
-import PLC.Sites
class Person(Row):
"""
table_name = 'persons'
primary_key = 'person_id'
- join_tables = ['person_role', 'person_site', 'slice_person', 'person_session']
+ join_tables = ['person_key', 'person_role', 'person_site', 'slice_person', 'person_session', 'peer_person']
fields = {
- 'person_id': Parameter(int, "Account identifier"),
+ 'person_id': Parameter(int, "User identifier"),
'first_name': Parameter(str, "Given name", max = 128),
'last_name': Parameter(str, "Surname", max = 128),
'title': Parameter(str, "Title", max = 128, nullok = True),
'enabled': Parameter(bool, "Has been enabled"),
'password': Parameter(str, "Account password in crypt() form", max = 254),
'verification_key': Parameter(str, "Reset password key", max = 254),
- 'verification_expires': Parameter(str, "Date/Time when verification_key expires", max = 254),
+ 'verification_expires': Parameter(int, "Date and time when verification_key expires"),
'last_updated': Parameter(int, "Date and time of last update", ro = True),
'date_created': Parameter(int, "Date and time when account was created", ro = True),
'role_ids': Parameter([int], "List of role identifiers"),
'site_ids': Parameter([int], "List of site identifiers"),
'key_ids': Parameter([int], "List of key identifiers"),
'slice_ids': Parameter([int], "List of slice identifiers"),
- 'peer_id': Parameter(int, "Peer at which this slice was created", nullok = True),
+ 'peer_id': Parameter(int, "Peer to which this user belongs", nullok = True),
+ 'peer_person_id': Parameter(int, "Foreign user identifier at peer", nullok = True),
}
# for Cache
salt = md5.md5(salt).hexdigest()[:8]
return crypt.crypt(password.encode(self.api.encoding), magic + salt + "$")
- # timestamps
- # verification_expires in the DB but not exposed here
- def validate_date_created (self, timestamp):
- return self.validate_timestamp (timestamp)
- def validate_last_updated (self, timestamp):
- return self.validate_timestamp (timestamp)
+ validate_date_created = Row.validate_timestamp
+ validate_last_updated = Row.validate_timestamp
+ validate_verification_expires = Row.validate_timestamp
def can_update(self, person):
"""
return False
- def add_role(self, role_id, commit = True):
- """
- Add role to existing account.
- """
-
- assert 'person_id' in self
-
- person_id = self['person_id']
-
- if role_id not in self['role_ids']:
- self.api.db.do("INSERT INTO person_role (person_id, role_id)" \
- " VALUES(%(person_id)d, %(role_id)d)",
- locals())
-
- if commit:
- self.api.db.commit()
-
- self['role_ids'].append(role_id)
-
- def remove_role(self, role_id, commit = True):
- """
- Remove role from existing account.
- """
-
- assert 'person_id' in self
-
- person_id = self['person_id']
-
- if role_id in self['role_ids']:
- self.api.db.do("DELETE FROM person_role" \
- " WHERE person_id = %(person_id)d" \
- " AND role_id = %(role_id)d",
- locals())
-
- if commit:
- self.api.db.commit()
+ add_role = Row.add_object(Role, 'person_role')
+ remove_role = Row.remove_object(Role, 'person_role')
- self['role_ids'].remove(role_id)
-
- def add_key(self, key, commit = True):
- """
- Add key to existing account.
- """
-
- assert 'person_id' in self
- assert isinstance(key, Key)
- assert 'key_id' in key
-
- person_id = self['person_id']
- key_id = key['key_id']
-
- if key_id not in self['key_ids']:
- self.api.db.do("INSERT INTO person_key (person_id, key_id)" \
- " VALUES(%(person_id)d, %(key_id)d)",
- locals())
-
- if commit:
- self.api.db.commit()
-
- self['key_ids'].append(key_id)
-
- def remove_key(self, key, commit = True):
- """
- Remove key from existing account.
- """
-
- assert 'person_id' in self
- assert isinstance(key, Key)
- assert 'key_id' in key
-
- person_id = self['person_id']
- key_id = key['key_id']
-
- if key_id in self['key_ids']:
- self.api.db.do("DELETE FROM person_key" \
- " WHERE person_id = %(person_id)d" \
- " AND key_id = %(key_id)d",
- locals())
-
- if commit:
- self.api.db.commit()
-
- self['key_ids'].remove(key_id)
+ add_key = Row.add_object(Key, 'person_key')
+ remove_key = Row.remove_object(Key, 'person_key')
def set_primary_site(self, site, commit = True):
"""
- Set the primary site for an existing account.
+ Set the primary site for an existing user.
"""
assert 'person_id' in self
- assert isinstance(site, PLC.Sites.Site)
assert 'site_id' in site
person_id = self['person_id']
self.api.mailer.mail(to_addr, None, from_addr, subject, template)
def send_account_registered_email(self, site):
-
to_addr = {}
cc_addr = {}
from_addr = {}
def delete(self, commit = True):
"""
- Delete existing account.
+ Delete existing user.
"""
# Delete all keys
database.
"""
- def __init__(self, api, person_filter = None, columns = None):
+ def __init__(self, api, person_filter = None, columns = None, peer_id = None):
Table.__init__(self, api, Person, columns)
sql = "SELECT %s FROM view_persons WHERE deleted IS False" % \
", ".join(self.columns)
+ if peer_id is None:
+ sql += " AND peer_id IS NULL"
+ elif isinstance(peer_id, (int, long)):
+ sql += " AND peer_id = %d" % peer_id
+
if person_filter is not None:
if isinstance(person_filter, (list, tuple, set)):
# Separate the list into integers and strings
+++ /dev/null
-#!/usr/bin/python
-#
-# Interactive shell for testing PLCAPI
-#
-# Mark Huang <mlhuang@cs.princeton.edu>
-# Copyright (C) 2005 The Trustees of Princeton University
-#
-# $Id: Shell.py,v 1.17 2006/12/13 22:29:28 mlhuang Exp $
-#
-
-import os, sys
-import traceback
-import getopt
-import pydoc
-import pg
-import xmlrpclib
-import getpass
-
-from PLC.API import PLCAPI
-from PLC.Parameter import Mixed
-from PLC.Auth import Auth
-from PLC.Config import Config
-from PLC.Method import Method
-from PLC.PyCurl import PyCurlTransport
-import PLC.Methods
-
-# the list of globals formerly defined by Shell.py before it was made a class
-former_globals = ['api','auth','config','begin','commit','calls']
-
-pyhelp = help
-def help(thing):
- """
- Override builtin help() function to support calling help(method).
- """
-
- # help(method)
- if isinstance(thing, Shell.Callable) and thing.name is not None:
- pydoc.pager(system.methodHelp(thing.name))
- return
-
- # help(help)
- if thing == help:
- thing = pyhelp
-
- # help(...)
- pyhelp(thing)
-
-####################
-class Shell:
-
- def __init__ (self,argv,config=None):
-
- # Defaults
- if config is not None:
- self.config=config
- else:
- # support running on non-myplc boxes
- default_config_file = "/etc/planetlab/plc_config"
- try:
- open (default_config_file).close()
- except:
- default_config_file="/dev/null"
- self.config = default_config_file
- self.url = None
- self.method = None
- self.user = None
- self.password = None
- self.role = None
- self.xmlrpc = False
- self.server = None
- self.cacert = None
-
- # More convenient multicall support
- self.multi = False
- self.calls = []
- self.argv = argv
-
- def init_from_argv (self):
-
- try:
- (opts, argv) = getopt.getopt(self.argv[1:],
- "f:h:m:u:p:r:x",
- ["config=", "cfg=", "file=",
- "host=","url=",
- "method=",
- "username=", "user=",
- "password=", "pass=", "authstring=",
- "role=",
- "xmlrpc",
- "cacert=",
- "help"])
- except getopt.GetoptError, err:
- print "Error: ", err.msg
- self.usage(self.argv)
-
- for (opt, optval) in opts:
- if opt == "-f" or opt == "--config" or opt == "--cfg" or opt == "--file":
- self.config = optval
- elif opt == "-h" or opt == "--host" or opt == "--url":
- self.url = optval
- elif opt == "-m" or opt == "--method":
- self.method = optval
- elif opt == "-u" or opt == "--username" or opt == "--user":
- self.user = optval
- elif opt == "-p" or opt == "--password" or opt == "--pass" or opt == "--authstring":
- self.password = optval
- elif opt == "-r" or opt == "--role":
- self.role = optval
- elif opt == "-x" or opt == "--xmlrpc":
- self.xmlrpc = True
- elif opt == "--cacert":
- self.cacert = optval
- elif opt == "--help":
- self.usage(self.argv)
-
- def usage(self,argv):
- print "Usage: %s [OPTION]..." % argv[0]
- print "Options:"
- print " -f, --config=FILE PLC configuration file"
- print " -h, --url=URL API URL"
- print " -m, --method=METHOD API authentication method"
- print " -u, --user=EMAIL API user name"
- print " -p, --password=STRING API password"
- print " -r, --role=ROLE API role"
- print " -x, --xmlrpc Use XML-RPC interface"
- print " --cacert=CACERT API SSL certificate"
- print " --help This message"
- sys.exit(1)
-
- def init_connection(self):
-
- # Append PLC to the system path
- sys.path.append(os.path.dirname(os.path.realpath(self.argv[0])))
-
- try:
- # If any XML-RPC options have been specified, do not try
- # connecting directly to the DB.
- if (self.url, self.method, self.user, self.password, self.role, self.cacert, self.xmlrpc) != \
- (None, None, None, None, None, None, False):
- raise Exception
-
- # Otherwise, first try connecting directly to the DB. If this
- # fails, try connecting to the API server via XML-RPC.
- self.api = PLCAPI(self.config)
- self.config = self.api.config
- self.server = None
- except:
- # Try connecting to the API server via XML-RPC
- self.api = PLCAPI(None)
- self.config = Config(self.config)
-
- if self.url is None:
- if int(self.config.PLC_API_PORT) == 443:
- self.url = "https://"
- else:
- self.url = "http://"
- self.url += self.config.PLC_API_HOST + \
- ":" + str(self.config.PLC_API_PORT) + \
- "/" + self.config.PLC_API_PATH + "/"
-
- if self.cacert is None:
- self.cacert = self.config.PLC_API_CA_SSL_CRT
-
- self.server = xmlrpclib.ServerProxy(self.url, PyCurlTransport(self.url, self.cacert), allow_none = 1)
-
- # Default is to use capability authentication
- if (self.method, self.user, self.password) == (None, None, None):
- self.method = "capability"
-
- if self.method == "capability":
- if self.user is None:
- self.user = self.config.PLC_API_MAINTENANCE_USER
- if self.password is None:
- self.password = self.config.PLC_API_MAINTENANCE_PASSWORD
- if self.role is None:
- self.role = "admin"
- elif self.method is None:
- self.method = "password"
-
- if self.role == "anonymous" or self.method == "anonymous":
- self.auth = {'AuthMethod': "anonymous"}
- else:
- if self.user is None:
- print "Error: must specify a username with -u"
- self.usage()
-
- if self.password is None:
- try:
- self.password = getpass.getpass()
- except (EOFError, KeyboardInterrupt):
- print
- sys.exit(0)
-
- self.auth = {'AuthMethod': self.method,
- 'Username': self.user,
- 'AuthString': self.password}
-
- if self.role is not None:
- self.auth['Role'] = self.role
-
- def begin(self):
- if self.calls:
- raise Exception, "multicall already in progress"
-
- self.multi = True
-
- def commit(self):
-
- if calls:
- ret = []
- self.multi = False
- results = system.multicall(calls)
- for result in results:
- if type(result) == type({}):
- raise xmlrpclib.Fault(item['faultCode'], item['faultString'])
- elif type(result) == type([]):
- ret.append(result[0])
- else:
- raise ValueError, "unexpected type in multicall result"
- else:
- ret = None
-
- self.calls = []
- self.multi = False
-
- return ret
-
- class Callable:
- """
- Wrapper to call a method either directly or remotely. Initialize
- with no arguments to use as a dummy class to support tab
- completion of API methods with dots in their names (e.g.,
- system.listMethods).
- """
-
- def __init__(self, shell, method = None):
- self.shell=shell
- self.name = method
-
- if method is not None:
- # Figure out if the function requires an authentication
- # structure as its first argument.
- self.auth = False
-
- try:
- func = shell.api.callable(method)
- if func.accepts and \
- (isinstance(func.accepts[0], Auth) or \
- (isinstance(func.accepts[0], Mixed) and \
- filter(lambda param: isinstance(param, Auth), func.accepts[0]))):
- self.auth = True
- except:
- traceback.print_exc()
- # XXX Ignore undefined methods for now
- pass
-
- if shell.server is not None:
- self.func = getattr(shell.server, method)
- else:
- self.func = func
-
- def __call__(self, *args, **kwds):
- """
- Automagically add the authentication structure if the function
- requires it and it has not been specified.
- """
-
- if self.auth and \
- (not args or not isinstance(args[0], dict) or \
- (not args[0].has_key('AuthMethod') and \
- not args[0].has_key('session'))):
- args = (self.shell.auth,) + args
-
- if self.shell.multi:
- self.shell.calls.append({'methodName': self.name, 'params': list(args)})
- return None
- else:
- return self.func(*args, **kwds)
-
- def init_methods (self):
- # makes methods defined on self
- for method in PLC.Methods.methods:
- # ignore path-defined methods for now
- if "." not in method:
- setattr(self,method,Shell.Callable(self,method))
-
- def init_globals (self):
- # Define all methods in the global namespace to support tab completion
- for method in PLC.Methods.methods:
- paths = method.split(".")
- if len(paths) > 1:
- first = paths.pop(0)
- if first not in globals():
- globals()[first] = Shell.Callable(self)
- obj = globals()[first]
- for path in paths:
- if not hasattr(obj, path):
- if path == paths[-1]:
- setattr(obj, path, Shell.Callable(self,method))
- else:
- setattr(obj, path, Shell.Callable(self))
- obj = getattr(obj, path)
- else:
- globals()[method] = Shell.Callable(self,method)
- # Other stuff to be made visible in globals()
- for slot in former_globals:
- #print 'Inserting global',slot
- globals()[slot] = getattr(self,slot)
-
- def run_script (self):
- # Pop us off the argument stack
- self.argv.pop(0)
- execfile(self.argv[0],globals(),globals())
- sys.exit(0)
-
- def show_config (self, verbose=False):
- if self.server is None:
- print "PlanetLab Central Direct API Access"
- self.prompt = ""
- elif self.auth['AuthMethod'] == "anonymous":
- self.prompt = "[anonymous]"
- print "Connected anonymously"
- else:
- self.prompt = "[%s]" % self.auth['Username']
- print "%s connected using %s authentication" % \
- (self.auth['Username'], self.auth['AuthMethod'])
-
- if verbose:
- print 'url',self.url
- print 'server',self.server
- print 'method',self.method
- print 'user',self.user,
- print 'password',self.password
- print 'role',self.role,
- print 'xmlrpc',self.xmlrpc,
- print 'multi',self.multi,
- print 'calls',self.calls
-
- def run_interactive (self):
- # Readline and tab completion support
- import atexit
- import readline
- import rlcompleter
-
- print 'Type "system.listMethods()" or "help(method)" for more information.'
- # Load command history
- history_path = os.path.join(os.environ["HOME"], ".plcapi_history")
- try:
- file(history_path, 'a').close()
- readline.read_history_file(history_path)
- atexit.register(readline.write_history_file, history_path)
- except IOError:
- pass
-
- # Enable tab completion
- readline.parse_and_bind("tab: complete")
-
- try:
- while True:
- command = ""
- while True:
- # Get line
- try:
- if command == "":
- sep = ">>> "
- else:
- sep = "... "
- line = raw_input(self.prompt + sep)
- # Ctrl-C
- except KeyboardInterrupt:
- command = ""
- print
- break
-
- # Build up multi-line command
- command += line
-
- # Blank line or first line does not end in :
- if line == "" or (command == line and line[-1] != ':'):
- break
-
- command += os.linesep
-
- # Blank line
- if command == "":
- continue
- # Quit
- elif command in ["q", "quit", "exit"]:
- break
-
- try:
- try:
- # Try evaluating as an expression and printing the result
- result = eval(command)
- if result is not None:
- print result
- except SyntaxError:
- # Fall back to executing as a statement
- exec command
- except Exception, err:
- traceback.print_exc()
-
- except EOFError:
- print
- pass
-
- # support former behaviour
- def run (self):
- if len(self.argv) < 2 or not os.path.exists(self.argv[1]):
- # Parse options if called interactively
- self.init_from_argv()
- self.init_connection()
- self.init_globals()
- # If called by a script
- if len(sys.argv) > 1 and os.path.exists(sys.argv[1]):
-# self.show_config()
- self.run_script()
- else:
- self.show_config()
- self.run_interactive()
-
- # does not run anything, support for multi-plc, see e.g. TestPeers.py
- def init(self):
- self.init_from_argv()
- self.init_connection()
- self.init_methods()
-
-if __name__ == '__main__':
- Shell(sys.argv).run()
-#!/usr/bin/env ./Shell.py
+#!/usr/bin/python
#
# Test script example
#
# Mark Huang <mlhuang@cs.princeton.edu>
# Copyright (C) 2006 The Trustees of Princeton University
#
-# $Id$
+# $Id: Test.py,v 1.15 2006/10/30 16:38:33 mlhuang Exp $
#
from pprint import pprint
from string import letters, digits, punctuation
-import re
-import socket
-import struct
+from traceback import print_exc
+from optparse import OptionParser
import base64
import os
from random import Random
random = Random()
+from PLC.Shell import Shell
+shell = Shell(globals())
+
def randfloat(min = 0.0, max = 1.0):
return float(min) + (random.random() * (float(max) - float(min)))
base64.b64encode(''.join(randstr(bits / 8).encode("utf-8"))),
randemail()])
-admin = {'AuthMethod': "capability",
- 'Username': config.PLC_API_MAINTENANCE_USER,
- 'AuthString': config.PLC_API_MAINTENANCE_PASSWORD,
- 'Role': "admin"}
-
-user = {'AuthMethod': "password",
- 'Role': "user"}
-
-pi = {'AuthMethod': "password",
- 'Role': "pi"}
-
-tech = {'AuthMethod': "password",
- 'Role': "tech"}
-
-# Add sites
-site_ids = []
-for i in range(3):
- def random_site():
- return {
- 'name': randstr(254),
- 'abbreviated_name': randstr(50),
- 'login_base': randstr(20, letters).lower(),
- 'latitude': int(randfloat(-90.0, 90.0) * 1000) / 1000.0,
- 'longitude': int(randfloat(-180.0, 180.0) * 1000) / 1000.0,
- }
+def random_site():
+ return {
+ 'name': randstr(254),
+ 'abbreviated_name': randstr(50),
+ 'login_base': randstr(20, letters).lower(),
+ 'latitude': int(randfloat(-90.0, 90.0) * 1000) / 1000.0,
+ 'longitude': int(randfloat(-180.0, 180.0) * 1000) / 1000.0,
+ }
- # Add site
- site_fields = random_site()
- print "AddSite",
- site_id = AddSite(admin, site_fields)
-
- # Should return a unique site_id
- assert site_id not in site_ids
- site_ids.append(site_id)
- print "=>", site_id
-
- # Check site
- print "GetSites(%d)" % site_id,
- site = GetSites(admin, [site_id])[0]
- for field in site_fields:
- assert site[field] == site_fields[field]
- print "=> OK"
-
- # Update site
- site_fields = random_site()
- # XXX Currently cannot change login_base
- del site_fields['login_base']
- site_fields['max_slices'] = randint(1, 10)
- print "UpdateSite(%d)" % site_id,
- UpdateSite(admin, site_id, site_fields)
- print "=> OK"
-
- # Check site again
- site = GetSites(admin, [site_id])[0]
- for field in site_fields:
- assert site[field] == site_fields[field]
-
-print "GetSites",
-sites = GetSites(admin, site_ids)
-assert set(site_ids) == set([site['site_id'] for site in sites])
-print "=>", site_ids
-
-# Add address types
-address_type_ids = []
-for i in range(3):
- def random_address_type():
- return {
- 'name': randstr(20),
- 'description': randstr(254),
- }
-
- print "AddAddressType",
- address_type_fields = random_address_type()
- address_type_id = AddAddressType(admin, address_type_fields)
-
- # Should return a unique address_type_id
- assert address_type_id not in address_type_ids
- address_type_ids.append(address_type_id)
- print "=>", address_type_id
-
- # Check address type
- print "GetAddressTypes(%d)" % address_type_id,
- address_type = GetAddressTypes(admin, [address_type_id])[0]
- for field in 'name', 'description':
- assert address_type[field] == address_type_fields[field]
- print "=> OK"
-
- # Update address type
- address_type_fields = random_address_type()
- print "UpdateAddressType(%d)" % address_type_id,
- UpdateAddressType(admin, address_type_id, address_type_fields)
- print "=> OK"
-
- # Check address type again
- address_type = GetAddressTypes(admin, [address_type_id])[0]
- for field in 'name', 'description':
- assert address_type[field] == address_type_fields[field]
-
-print "GetAddressTypes",
-address_types = GetAddressTypes(admin, address_type_ids)
-assert set(address_type_ids) == set([address_type['address_type_id'] for address_type in address_types])
-print "=>", address_type_ids
-
-# Add site addresses
-address_ids = []
-for site_id in site_ids:
- for i in range(3):
- def random_address():
- return {
- 'line1': randstr(254),
- 'line2': randstr(254),
- 'line3': randstr(254),
- 'city': randstr(254),
- 'state': randstr(254),
- 'postalcode': randstr(64),
- 'country': randstr(128),
- }
-
- print "AddSiteAddress",
- address_fields = random_address()
- address_id = AddSiteAddress(admin, site_id, address_fields)
-
- # Should return a unique address_id
- assert address_id not in address_ids
- address_ids.append(address_id)
- print "=>", address_id
-
- # Check address
- print "GetAddresses(%d)" % address_id,
- address = GetAddresses(admin, [address_id])[0]
- for field in address_fields:
- assert address[field] == address_fields[field]
- print "=> OK"
-
- # Update address
- address_fields = random_address()
- print "UpdateAddress(%d)" % address_id,
- UpdateAddress(admin, address_id, address_fields)
- print "=> OK"
-
- # Check address again
- address = GetAddresses(admin, [address_id])[0]
- for field in address_fields:
- assert address[field] == address_fields[field]
-
- # Add address types
- for address_type_id in address_type_ids:
- print "AddAddressTypeToAddress(%d, %d)" % (address_type_id, address_id),
- AddAddressTypeToAddress(admin, address_type_id, address_id)
- print "=> OK"
+def random_address_type():
+ return {
+ 'name': randstr(20),
+ 'description': randstr(254),
+ }
+
+def random_address():
+ return {
+ 'line1': randstr(254),
+ 'line2': randstr(254),
+ 'line3': randstr(254),
+ 'city': randstr(254),
+ 'state': randstr(254),
+ 'postalcode': randstr(64),
+ 'country': randstr(128),
+ }
+
+def random_person():
+ return {
+ 'first_name': randstr(128),
+ 'last_name': randstr(128),
+ 'email': randemail(),
+ 'bio': randstr(254),
+ # Accounts are disabled by default
+ 'enabled': False,
+ 'password': randstr(254),
+ }
+
+def random_key():
+ return {
+ 'key_type': random.sample(key_types, 1)[0],
+ 'key': randkey()
+ }
+
+def random_slice():
+ return {
+ 'name': site['login_base'] + "_" + randstr(11, letters).lower(),
+ 'url': "http://" + randhostname() + "/",
+ 'description': randstr(2048),
+ }
+
+class Test:
+ def __init__(self, check = True, verbose = True):
+ self.check = check
+ self.verbose = verbose
-print "GetAddresses",
-addresses = GetAddresses(admin, address_ids)
-assert set(address_ids) == set([address['address_id'] for address in addresses])
-for address in addresses:
- assert set(address_type_ids) == set(address['address_type_ids'])
-print "=>", address_ids
-
-print "GetRoles",
-roles = GetRoles(admin)
-role_ids = [role['role_id'] for role in roles]
-roles = [role['name'] for role in roles]
-roles = dict(zip(roles, role_ids))
-print "=>", role_ids
-
-print "GetKeyTypes",
-key_types = GetKeyTypes(admin)
-print "=>", key_types
-
-# Add users
-person_ids = []
-key_ids = []
-for auth in user, pi, tech:
- def random_person():
- global auth
-
- person_fields = {
- 'first_name': randstr(128),
- 'last_name': randstr(128),
- 'email': randemail(),
- 'bio': randstr(254),
- # Accounts are disabled by default
- 'enabled': False,
- 'password': randstr(254),
- }
-
- auth['Username'] = person_fields['email']
- auth['AuthString'] = person_fields['password']
-
- return person_fields
-
- # Add account
- person_fields = random_person()
- print "AddPerson",
- person_id = AddPerson(admin, person_fields)
-
- # Should return a unique person_id
- assert person_id not in person_ids
- person_ids.append(person_id)
- print "=>", person_id
-
- # Check account
- print "GetPersons(%d)" % person_id,
- person = GetPersons(admin, [person_id])[0]
- for field in person_fields:
- if field != 'password':
- assert person[field] == person_fields[field]
- print "=> OK"
-
- # Update account
- person_fields = random_person()
- print "UpdatePerson(%d)" % person_id,
- UpdatePerson(admin, person_id, person_fields)
- print "=> OK"
-
- # Check account again
- person = GetPersons(admin, [person_id])[0]
- for field in person_fields:
- if field != 'password':
- assert person[field] == person_fields[field]
-
- # Check that account is really disabled
- try:
- assert not AuthCheck(auth)
- except:
- pass
-
- # Add role
- role_id = roles[auth['Role']]
- print "AddRoleToPerson(%d, %d)" % (role_id, person_id),
- AddRoleToPerson(admin, role_id, person_id)
- person = GetPersons(admin, [person_id])[0]
- assert [role_id] == person['role_ids']
- print "=> OK"
-
- # Enable account
- UpdatePerson(admin, person_id, {'enabled': True})
-
- # Check authentication
- print "AuthCheck(%s)" % auth['Username'],
- assert AuthCheck(auth)
- print "=> OK"
-
- # Associate account with each site
- for site_id in site_ids:
- print "AddPersonToSite(%d, %d)" % (person_id, site_id),
- AddPersonToSite(admin, person_id, site_id)
- print "=> OK"
-
- # Make sure it really did it
- person = GetPersons(admin, [person_id])[0]
- person_site_ids = person['site_ids']
- assert set(site_ids) == set(person['site_ids'])
-
- # First site should be the primary site
- print "SetPersonPrimarySite(%d, %d)" % (person_id, person_site_ids[1]),
- SetPersonPrimarySite(auth, person_id, person_site_ids[1])
- person = GetPersons(admin, [person_id])[0]
- assert person['site_ids'][0] == person_site_ids[1]
- print "=> OK"
-
- def random_key():
- return {
- 'key_type': random.sample(key_types, 1)[0],
- 'key': randkey()
- }
-
- # Add keys
- for i in range(3):
- # Add slice attribute
- key_fields = random_key()
- print "AddPersonKey",
- key_id = AddPersonKey(admin, person_id, key_fields)
-
- # Should return a unique key_id
- assert key_id not in key_ids
- key_ids.append(key_id)
- print "=>", key_id
-
- # Check key
- print "GetKeys(%d)" % key_id,
- key = GetKeys(admin, [key_id])[0]
- for field in key_fields:
- assert key[field] == key_fields[field]
- print "=> OK"
-
- # Update key
- key_fields = random_key()
- print "UpdateKey(%d)" % key_id,
- UpdateKey(admin, key_id, key_fields)
- key = GetKeys(admin, [key_id])[0]
- for field in key_fields:
- assert key[field] == key_fields[field]
- print "=> OK"
-
- # Add and immediately blacklist a key
- key_fields = random_key()
- print "AddPersonKey",
- key_id = AddPersonKey(admin, person_id, key_fields)
- print "=>", key_id
-
- print "BlacklistKey(%d)" % key_id,
- BlacklistKey(admin, key_id)
-
- # Is effectively deleted
- assert not GetKeys(admin, [key_id])
- person = GetPersons(admin, [person_id])[0]
- assert key_id not in person['key_ids']
-
- # Cannot be added again
- try:
- key_id = AddPersonKey(admin, person_id, key_fields)
- assert False
- except Exception, e:
- pass
-
- print "=> OK"
-
-print "GetPersons",
-persons = GetPersons(admin, person_ids)
-assert set(person_ids) == set([person['person_id'] for person in persons])
-print "=>", person_ids
-
-# Add node groups
-nodegroup_ids = []
-for i in range(3):
- def random_nodegroup():
- return {
- 'name': randstr(50),
- 'description': randstr(200),
- }
-
- # Add node group
- print "AddNodeGroup",
- nodegroup_fields = random_nodegroup()
- nodegroup_id = AddNodeGroup(admin, nodegroup_fields)
-
- # Should return a unique nodegroup_id
- assert nodegroup_id not in nodegroup_ids
- nodegroup_ids.append(nodegroup_id)
- print "=>", nodegroup_id
-
- # Check node group
- print "GetNodeGroups(%d)" % nodegroup_id,
- nodegroup = GetNodeGroups(admin, [nodegroup_id])[0]
- for field in nodegroup_fields:
- assert nodegroup[field] == nodegroup_fields[field]
- print "=> OK"
-
- # Update node group, with a readable name
- nodegroup_fields = random_nodegroup()
- nodegroup_fields['name'] = randstr(16, letters + ' ' + digits)
- print "UpdateNodeGroup",
- UpdateNodeGroup(admin, nodegroup_id, nodegroup_fields)
- print "=> OK"
-
- # Check node group again
- nodegroup = GetNodeGroups(admin, [nodegroup_id])[0]
- for field in nodegroup_fields:
- assert nodegroup[field] == nodegroup_fields[field]
-
-print "GetNodeGroups",
-nodegroups = GetNodeGroups(admin, nodegroup_ids)
-assert set(nodegroup_ids) == set([nodegroup['nodegroup_id'] for nodegroup in nodegroups])
-print "=>", nodegroup_ids
-
-print "GetBootStates",
-boot_states = GetBootStates(admin)
-print "=>", boot_states
-
-# Add nodes
-node_ids = []
-for site_id in site_ids:
- for i in range(3):
- def random_node():
- return {
- 'hostname': randhostname(),
- 'boot_state': random.sample(boot_states, 1)[0],
- 'model': randstr(255),
- 'version': randstr(64),
- }
-
- # Add node
- node_fields = random_node()
- print "AddNode",
- node_id = AddNode(admin, site_id, node_fields)
-
- # Should return a unique node_id
- assert node_id not in node_ids
- node_ids.append(node_id)
- print "=>", node_id
-
- # Check node
- print "GetNodes(%d)" % node_id,
- node = GetNodes(admin, [node_id])[0]
- for field in node_fields:
- assert node[field] == node_fields[field]
- print "=> OK"
-
- # Update node
- node_fields = random_node()
- print "UpdateNode(%d)" % node_id,
- UpdateNode(admin, node_id, node_fields)
- print "=> OK"
-
- # Check node again
- node = GetNodes(admin, [node_id])[0]
- for field in node_fields:
- assert node[field] == node_fields[field]
-
- # Add to node groups
- for nodegroup_id in nodegroup_ids:
- print "AddNodeToNodeGroup(%d, %d)" % (node_id, nodegroup_id),
- AddNodeToNodeGroup(admin, node_id, nodegroup_id)
- print "=> OK"
+ self.site_ids = []
+ self.address_type_ids = []
+ self.address_ids = []
+ self.person_ids = []
+
+ def run(self,
+ sites = 100,
+ address_types = 3,
+ addresses = 2,
+ persons = 1000,
+ keys = 3):
+ try:
+ try:
+ self.AddSites(sites)
+ self.AddAddressTypes(address_types)
+ self.AddAddresses(addresses)
+ self.AddPersons(persons)
+ except:
+ print_exc()
+ finally:
+ self.cleanup()
+
+ def cleanup(self):
+ self.DeletePersons()
+ self.DeleteAddresses()
+ self.DeleteAddressTypes()
+ self.DeleteSites()
+
+ def AddSites(self, n = 3):
+ """
+ Add a number of random sites.
+ """
+
+ for i in range(n):
+ # Add site
+ site_fields = random_site()
+ site_id = AddSite(site_fields)
+
+ # Should return a unique site_id
+ assert site_id not in self.site_ids
+ self.site_ids.append(site_id)
+
+ if self.check:
+ # Check site
+ site = GetSites([site_id])[0]
+ for field in site_fields:
+ assert site[field] == site_fields[field]
+
+ # Update site
+ site_fields = random_site()
+ # XXX Currently cannot change login_base
+ del site_fields['login_base']
+ site_fields['max_slices'] = randint(1, 10)
+ UpdateSite(site_id, site_fields)
+
+ if self.check:
+ # Check site again
+ site = GetSites([site_id])[0]
+ for field in site_fields:
+ assert site[field] == site_fields[field]
+
+ if self.check:
+ sites = GetSites(self.site_ids)
+ assert set(self.site_ids) == set([site['site_id'] for site in sites])
+
+ if self.verbose:
+ print "Added sites", self.site_ids
+
+ def DeleteSites(self):
+ """
+ Delete any random sites we may have added.
+ """
+
+ for site_id in self.site_ids:
+ DeleteSite(site_id)
+ if self.check:
+ assert not GetSites([site_id])
+
+ if self.check:
+ assert not GetSites(self.site_ids)
+
+ if self.verbose:
+ print "Deleted sites", self.site_ids
+
+ self.site_ids = []
+
+ def AddAddressTypes(self, n = 3):
+ """
+ Add a number of random address types.
+ """
-print "GetNodes",
-nodes = GetNodes(admin, node_ids)
-assert set(node_ids) == set([node['node_id'] for node in nodes])
-print "=>", node_ids
-
-print "GetNodeGroups",
-nodegroups = GetNodeGroups(admin, nodegroup_ids)
-for nodegroup in nodegroups:
- assert set(nodegroup['node_ids']) == set(node_ids)
-print "=> OK"
-
-print "GetNetworkMethods",
-network_methods = GetNetworkMethods(admin)
-print "=>", network_methods
-
-print "GetNetworkTypes",
-network_types = GetNetworkTypes(admin)
-print "=>", network_types
-
-# Add node networks
-nodenetwork_ids = []
-for node_id in node_ids:
- def random_nodenetwork(method, type):
- nodenetwork_fields = {
- 'method': method,
- 'type': type,
- 'bwlimit': randint(500000, 10000000),
- }
-
- if method != 'dhcp':
- ip = randint(0, 0xffffffff)
- netmask = (0xffffffff << randint(2, 31)) & 0xffffffff
- network = ip & netmask
- broadcast = ((ip & netmask) | ~netmask) & 0xffffffff
- gateway = randint(network + 1, broadcast - 1)
- dns1 = randint(0, 0xffffffff)
-
- for field in 'ip', 'netmask', 'network', 'broadcast', 'gateway', 'dns1':
- nodenetwork_fields[field] = socket.inet_ntoa(struct.pack('>L', locals()[field]))
-
- return nodenetwork_fields
-
- for method in network_methods:
- for type in network_types:
- # Add node network
- print "AddNodeNetwork",
- nodenetwork_fields = random_nodenetwork(method, type)
- nodenetwork_id = AddNodeNetwork(admin, node_id, nodenetwork_fields)
-
- # Should return a unique nodenetwork_id
- assert nodenetwork_id not in nodenetwork_ids
- nodenetwork_ids.append(nodenetwork_id)
- print "=>", nodenetwork_id
-
- # Check node network
- print "GetNodeNetworks(%d)" % nodenetwork_id,
- nodenetwork = GetNodeNetworks(admin, [nodenetwork_id])[0]
- for field in nodenetwork_fields:
- assert nodenetwork[field] == nodenetwork_fields[field]
- print "=> OK"
-
- # Update node network
- nodenetwork_fields = random_nodenetwork(method, type)
- print "UpdateNodeNetwork(%d)" % nodenetwork_id,
- UpdateNodeNetwork(admin, nodenetwork_id, nodenetwork_fields)
- print "=> OK"
-
- # Check node network again
- nodenetwork = GetNodeNetworks(admin, [nodenetwork_id])[0]
- for field in nodenetwork_fields:
- assert nodenetwork[field] == nodenetwork_fields[field]
-
-print "GetNodeNetworks",
-nodenetworks = GetNodeNetworks(admin, nodenetwork_ids)
-assert set(nodenetwork_ids) == set([nodenetwork['nodenetwork_id'] for nodenetwork in nodenetworks])
-print "=>", nodenetwork_ids
-
-# Add PCUs
-pcu_ids = []
-for site_id in site_ids:
- def random_pcu():
- return {
- 'hostname': randhostname(),
- 'ip': socket.inet_ntoa(struct.pack('>L', randint(0, 0xffffffff))),
- 'protocol': randstr(16),
- 'username': randstr(254),
- 'password': randstr(254),
- 'notes': randstr(254),
- 'model': randstr(32),
- }
-
- # Add PCU
- pcu_fields = random_pcu()
- print "AddPCU",
- pcu_id = AddPCU(admin, site_id, pcu_fields)
-
- # Should return a unique pcu_id
- assert pcu_id not in pcu_ids
- pcu_ids.append(pcu_id)
- print "=>", pcu_id
-
- # Check PCU
- print "GetPCUs(%d)" % pcu_id,
- pcu = GetPCUs(admin, [pcu_id])[0]
- for field in pcu_fields:
- assert pcu[field] == pcu_fields[field]
- print "=> OK"
-
- # Update PCU
- pcu_fields = random_pcu()
- print "UpdatePCU(%d)" % pcu_id,
- UpdatePCU(admin, pcu_id, pcu_fields)
- print "=> OK"
-
- # Check PCU again
- pcu = GetPCUs(admin, [pcu_id])[0]
- for field in pcu_fields:
- assert pcu[field] == pcu_fields[field]
-
- # Add each node at this site to a different port on this PCU
- site = GetSites(admin, [site_id])[0]
- port = randint(1, 10)
- for node_id in site['node_ids']:
- print "AddNodeToPCU(%d, %d, %d)" % (node_id, pcu_id, port),
- AddNodeToPCU(admin, node_id, pcu_id, port)
- print "=> OK"
- port += 1
-
-print "GetPCUs",
-pcus = GetPCUs(admin, pcu_ids)
-assert set(pcu_ids) == set([pcu['pcu_id'] for pcu in pcus])
-print "=>", pcu_ids
-
-# Add configuration files
-conf_file_ids = []
-for nodegroup_id in nodegroup_ids:
- def random_conf_file():
- return {
- 'enabled': bool(randint()),
- 'source': randpath(255),
- 'dest': randpath(255),
- 'file_permissions': "%#o" % randint(0, 512),
- 'file_owner': randstr(32, letters + '_' + digits),
- 'file_group': randstr(32, letters + '_' + digits),
- 'preinstall_cmd': randpath(100),
- 'postinstall_cmd': randpath(100),
- 'error_cmd': randpath(100),
- 'ignore_cmd_errors': bool(randint()),
- 'always_update': bool(randint()),
- }
-
- # Add configuration file
- conf_file_fields = random_conf_file()
- print "AddConfFile",
- conf_file_id = AddConfFile(admin, conf_file_fields)
-
- # Should return a unique conf_file_id
- assert conf_file_id not in conf_file_ids
- conf_file_ids.append(conf_file_id)
- print "=>", conf_file_id
-
- # Check configuration file
- print "GetConfFiles(%d)" % conf_file_id,
- conf_file = GetConfFiles(admin, [conf_file_id])[0]
- for field in conf_file_fields:
- assert conf_file[field] == conf_file_fields[field]
- print "=> OK"
-
- # Update configuration file
- conf_file_fields = random_conf_file()
- print "UpdateConfFile(%d)" % conf_file_id,
- UpdateConfFile(admin, conf_file_id, conf_file_fields)
- print "=> OK"
-
- # Check configuration file
- conf_file = GetConfFiles(admin, [conf_file_id])[0]
- for field in conf_file_fields:
- assert conf_file[field] == conf_file_fields[field]
-
- # Add to all node groups
- for nodegroup_id in nodegroup_ids:
- print "AddConfFileToNodeGroup(%d, %d)" % (conf_file_id, nodegroup_id),
- AddConfFileToNodeGroup(admin, conf_file_id, nodegroup_id)
- print "=> OK"
-
- # Add to all nodes
- for node_id in node_ids:
- print "AddConfFileToNode(%d, %d)" % (conf_file_id, node_id),
- AddConfFileToNode(admin, conf_file_id, node_id)
- print "=> OK"
-
-print "GetConfFiles",
-conf_files = GetConfFiles(admin, conf_file_ids)
-assert set(conf_file_ids) == set([conf_file['conf_file_id'] for conf_file in conf_files])
-for conf_file in conf_files:
- assert set(nodegroup_ids) == set(conf_file['nodegroup_ids'])
- assert set(node_ids) == set(conf_file['node_ids'])
-print "=>", conf_file_ids
-
-# Add slice attribute types
-attribute_type_ids = []
-for i in range(3):
- def random_attribute_type():
- return {
- 'name': randstr(100),
- 'description': randstr(254),
- 'min_role_id': random.sample(roles.values(), 1)[0],
- }
-
- # Add slice attribute type
- attribute_type_fields = random_attribute_type()
- print "AddSliceAttributeType",
- attribute_type_id = AddSliceAttributeType(admin, attribute_type_fields)
-
- # Should return a unique attribute_type_id
- assert attribute_type_id not in attribute_type_ids
- attribute_type_ids.append(attribute_type_id)
- print "=>", attribute_type_id
-
- # Check slice attribute type
- print "GetSliceAttributeTypes(%d)" % attribute_type_id,
- attribute_type = GetSliceAttributeTypes(admin, [attribute_type_id])[0]
- for field in attribute_type_fields:
- assert attribute_type[field] == attribute_type_fields[field]
- print "=> OK"
-
- # Update slice attribute type
- attribute_type_fields = random_attribute_type()
- print "UpdateSliceAttributeType(%d)" % attribute_type_id,
- UpdateSliceAttributeType(admin, attribute_type_id, attribute_type_fields)
- print "=> OK"
-
- # Check slice attribute type again
- attribute_type = GetSliceAttributeTypes(admin, [attribute_type_id])[0]
- for field in attribute_type_fields:
- assert attribute_type[field] == attribute_type_fields[field]
-
-# Add slices and slice attributes
-slice_ids = []
-slice_attribute_ids = []
-for site in sites:
- for i in range(site['max_slices']):
- def random_slice():
- return {
- 'name': site['login_base'] + "_" + randstr(11, letters).lower(),
- 'url': "http://" + randhostname() + "/",
- 'description': randstr(2048),
- }
-
- # Add slice
- slice_fields = random_slice()
- print "AddSlice",
- slice_id = AddSlice(admin, slice_fields)
-
- # Should return a unique slice_id
- assert slice_id not in slice_ids
- slice_ids.append(slice_id)
- print "=>", slice_id
-
- # Check slice
- print "GetSlices(%d)" % slice_id,
- slice = GetSlices(admin, [slice_id])[0]
- for field in slice_fields:
- assert slice[field] == slice_fields[field]
- print "=> OK"
-
- # Update slice
- slice_fields = random_slice()
- # Cannot change slice name
- del slice_fields['name']
- print "UpdateSlice(%d)" % slice_id,
- UpdateSlice(admin, slice_id, slice_fields)
- slice = GetSlices(admin, [slice_id])[0]
- for field in slice_fields:
- assert slice[field] == slice_fields[field]
- print "=> OK"
-
- # Add slice to all nodes
- print "AddSliceToNodes(%d, %s)" % (slice_id, str(node_ids)),
- AddSliceToNodes(admin, slice_id, node_ids)
- slice = GetSlices(admin, [slice_id])[0]
- assert set(node_ids) == set(slice['node_ids'])
- print "=> OK"
-
- # Add users to slice
- for person_id in person_ids:
- print "AddPersonToSlice(%d, %d)" % (person_id, slice_id),
- AddPersonToSlice(admin, person_id, slice_id)
- print "=> OK"
- slice = GetSlices(admin, [slice_id])[0]
- assert set(person_ids) == set(slice['person_ids'])
-
- # Set slice/sliver attributes
- for attribute_type_id in attribute_type_ids:
- value = randstr(16, letters + '_' + digits)
- # Make it a sliver attribute with 50% probability
- node_id = random.sample(node_ids + [None] * len(node_ids), 1)[0]
-
- # Add slice attribute
- print "AddSliceAttribute(%d, %d)" % (slice_id, attribute_type_id),
- if node_id is None:
- slice_attribute_id = AddSliceAttribute(admin, slice_id, attribute_type_id, value)
- else:
- slice_attribute_id = AddSliceAttribute(admin, slice_id, attribute_type_id, value, node_id)
-
- # Should return a unique slice_attribute_id
- assert slice_attribute_id not in slice_attribute_ids
- slice_attribute_ids.append(slice_attribute_id)
- print "=>", slice_attribute_id
-
- # Check slice attribute
- print "GetSliceAttributes(%d)" % slice_attribute_id,
- slice_attribute = GetSliceAttributes(admin, [slice_attribute_id])[0]
- for field in 'attribute_type_id', 'slice_id', 'node_id', 'slice_attribute_id', 'value':
- assert slice_attribute[field] == locals()[field]
- print "=> OK"
-
- # Update slice attribute
- value = randstr(16, letters + '_' + digits)
- print "UpdateSliceAttribute(%d)" % slice_attribute_id,
- UpdateSliceAttribute(admin, slice_attribute_id, value)
- slice_attribute = GetSliceAttributes(admin, [slice_attribute_id])[0]
- for field in 'attribute_type_id', 'slice_id', 'node_id', 'slice_attribute_id', 'value':
- assert slice_attribute[field] == locals()[field]
- print "=> OK"
-
-# Delete slices
-for slice_id in slice_ids:
- # Delete slice attributes
- slice = GetSlices(admin, [slice_id])[0]
- for slice_attribute_id in slice['slice_attribute_ids']:
- print "DeleteSliceAttribute(%d, %d)" % (slice_id, slice_attribute_id),
- DeleteSliceAttribute(admin, slice_attribute_id)
- print "=> OK"
- slice = GetSlices(admin, [slice_id])[0]
- assert not slice['slice_attribute_ids']
-
- # Delete users from slice
- for person_id in person_ids:
- print "DeletePersonFromSlice(%d, %d)" % (person_id, slice_id),
- DeletePersonFromSlice(admin, person_id, slice_id)
- print "=> OK"
- slice = GetSlices(admin, [slice_id])[0]
- assert not slice['person_ids']
-
- # Delete nodes from slice
- print "DeleteSliceFromNodes(%d, %s)" % (slice_id, node_ids),
- DeleteSliceFromNodes(admin, slice_id, node_ids)
- print "=> OK"
- slice = GetSlices(admin, [slice_id])[0]
- assert not slice['node_ids']
-
- # Delete slice
- print "DeleteSlice(%d)" % slice_id,
- DeleteSlice(admin, slice_id)
- assert not GetSlices(admin, [slice_id])
-
- # Make sure it really deleted it
- slices = GetSlices(admin, slice_ids)
- assert slice_id not in [slice['slice_id'] for slice in slices]
- print "=> OK"
-
-print "GetSlices",
-assert not GetSlices(admin, slice_ids)
-print "=> []"
-
-# Delete slice attribute types
-for attribute_type_id in attribute_type_ids:
- # Delete slice attribute type
- print "DeleteSliceAttributeType(%d)" % attribute_type_id,
- DeleteSliceAttributeType(admin, attribute_type_id)
- assert not GetSliceAttributeTypes(admin, [attribute_type_id])
-
- # Make sure it really deleted it
- attribute_types = GetSliceAttributeTypes(admin, attribute_type_ids)
- assert attribute_type_id not in [attribute_type['attribute_type_id'] for attribute_type in attribute_types]
- print "=> OK"
-
-print "GetSliceAttributeTypes",
-assert not GetSliceAttributeTypes(admin, attribute_type_ids)
-print "=> []"
-
-# Delete configuration files
-for conf_file in conf_files:
- conf_file_id = conf_file['conf_file_id']
-
- for node_id in conf_file['node_ids']:
- print "DeleteConfFileFromNode(%d, %d)" % (conf_file_id, node_id),
- DeleteConfFileFromNode(admin, conf_file_id, node_id)
- print "=> OK"
-
- for nodegroup_id in conf_file['nodegroup_ids']:
- print "DeleteConfFileFromNodeGroup(%d, %d)" % (conf_file_id, nodegroup_id),
- DeleteConfFileFromNodeGroup(admin, conf_file_id, nodegroup_id)
- print "=> OK"
-
- print "DeleteConfFile(%d)" % conf_file_id,
- DeleteConfFile(admin, conf_file_id)
- print "=> OK"
-
-print "GetConfFiles",
-assert not GetConfFiles(admin, conf_file_ids)
-print "=> []"
-
-# Delete PCUs
-for pcu in pcus:
- pcu_id = pcu['pcu_id']
-
- for node_id in pcu['node_ids']:
- print "DeleteNodeFromPCU(%d, %d)" % (node_id, pcu_id),
- DeleteNodeFromPCU(admin, node_id, pcu_id)
- print "=> OK"
-
- print "DeletePCU(%d)" % pcu_id,
- DeletePCU(admin, pcu_id)
- print "=> OK"
-
-print "GetPCUs",
-assert not GetPCUs(admin, pcu_ids)
-print "=> []"
-
-# Delete node networks
-for nodenetwork_id in nodenetwork_ids:
- print "DeleteNodeNetwork(%d)" % nodenetwork_id,
- DeleteNodeNetwork(admin, nodenetwork_id)
- print "=>", "OK"
-
-print "GetNodeNetworks",
-assert not GetNodeNetworks(admin, nodenetwork_ids)
-print "=> []"
-
-# Delete nodes
-for node_id in node_ids:
- # Remove from node groups
- for nodegroup_id in nodegroup_ids:
- print "DeleteNodeFromNodeGroup(%d, %d)" % (node_id, nodegroup_id),
- DeleteNodeFromNodeGroup(admin, node_id, nodegroup_id)
- print "=> OK"
- node = GetNodes(admin, [node_id])[0]
- assert not node['nodegroup_ids']
-
- # Delete node
- print "DeleteNode(%d)" % node_id,
- DeleteNode(admin, node_id)
- assert not GetNodes(admin, [node_id])
-
- # Make sure it really deleted it
- nodes = GetNodes(admin, node_ids)
- assert node_id not in [node['node_id'] for node in nodes]
- print "=> OK"
-
-print "GetNodes",
-assert not GetNodes(admin, node_ids)
-print "=> []"
-
-nodegroups = GetNodeGroups(admin, nodegroup_ids)
-for nodegroup in nodegroups:
- assert not set(node_ids).intersection(nodegroup['node_ids'])
-
-# Delete users
-for person_id in person_ids:
- # Delete keys
- person = GetPersons(admin, [person_id])[0]
- for key_id in person['key_ids']:
- print "DeleteKey(%d)" % key_id,
- DeleteKey(admin, key_id)
- print "=> OK"
- person = GetPersons(admin, [person_id])[0]
- assert not person['key_ids']
-
- # Remove from each site
- for site_id in site_ids:
- print "DeletePersonFromSite(%d, %d)" % (person_id, site_id),
- DeletePersonFromSite(admin, person_id, site_id)
- print "=> OK"
- person = GetPersons(admin, [person_id])[0]
- assert not person['site_ids']
-
- # Revoke role
- person = GetPersons(admin, [person_id])[0]
- for role_id in person['role_ids']:
- print "DeleteRoleFromPerson(%d, %d)" % (role_id, person_id),
- DeleteRoleFromPerson(admin, role_id, person_id)
- print "=> OK"
- person = GetPersons(admin, [person_id])[0]
- assert not person['role_ids']
-
- # Disable account
- UpdatePerson(admin, person_id, {'enabled': False})
- person = GetPersons(admin, [person_id])[0]
- assert not person['enabled']
-
- # Delete account
- print "DeletePerson(%d)" % person_id,
- DeletePerson(admin, person_id)
- assert not GetPersons(admin, [person_id])
- print "=> OK"
-
-print "GetPersons",
-assert not GetPersons(admin, person_ids)
-print "=> []"
-
-# Delete node groups
-for nodegroup_id in nodegroup_ids:
- print "DeleteNodeGroup(%d)" % nodegroup_id,
- DeleteNodeGroup(admin, nodegroup_id)
- assert not GetNodeGroups(admin, [nodegroup_id])
- print "=> OK"
-
-print "GetNodeGroups",
-assert not GetNodeGroups(admin, nodegroup_ids)
-print "=> []"
-
-# Delete site addresses
-for address_id in address_ids:
- # Remove address types
- for address_type_id in address_type_ids:
- print "DeleteAddressTypeFromAddress(%d, %d)" % (address_type_id, address_id),
- DeleteAddressTypeFromAddress(admin, address_type_id, address_id)
- print "=> OK"
- address = GetAddresses(admin, [address_id])[0]
- assert not address['address_type_ids']
-
- print "DeleteAddress(%d)" % address_id,
- DeleteAddress(admin, address_id)
- assert not GetAddresses(admin, [address_id])
- print "=> OK"
-
-print "GetAddresss",
-assert not GetAddresses(admin, address_ids)
-print "=> []"
-
-# Delete address types
-for address_type_id in address_type_ids:
- print "DeleteAddressType(%d)" % address_type_id,
- DeleteAddressType(admin, address_type_id)
- assert not GetAddressTypes(admin, [address_type_id])
- print "=> OK"
-
-print "GetAddressTypes",
-assert not GetAddressTypes(admin, address_type_ids)
-print "=> []"
-
-# Delete sites
-for site_id in site_ids:
- print "DeleteSite(%d)" % site_id,
- DeleteSite(admin, site_id)
- assert not GetSites(admin, [site_id])
- print "=> OK"
-
-print "GetSites",
-assert not GetSites(admin, site_ids)
-print "=> []"
+ for i in range(n):
+ address_type_fields = random_address_type()
+ address_type_id = AddAddressType(address_type_fields)
+
+ # Should return a unique address_type_id
+ assert address_type_id not in self.address_type_ids
+ self.address_type_ids.append(address_type_id)
+
+ if self.check:
+ # Check address type
+ address_type = GetAddressTypes([address_type_id])[0]
+ for field in 'name', 'description':
+ assert address_type[field] == address_type_fields[field]
+
+ # Update address type
+ address_type_fields = random_address_type()
+ UpdateAddressType(address_type_id, address_type_fields)
+
+ # Check address type again
+ address_type = GetAddressTypes([address_type_id])[0]
+ for field in 'name', 'description':
+ assert address_type[field] == address_type_fields[field]
+
+ if self.check:
+ address_types = GetAddressTypes(self.address_type_ids)
+ assert set(self.address_type_ids) == set([address_type['address_type_id'] for address_type in address_types])
+
+ if self.verbose:
+ print "Added address types", self.address_type_ids
+
+ def DeleteAddressTypes(self):
+ """
+ Delete any random address types we may have added.
+ """
+
+ for address_type_id in self.address_type_ids:
+ DeleteAddressType(address_type_id)
+ if self.check:
+ assert not GetAddressTypes([address_type_id])
+
+ if self.check:
+ assert not GetAddressTypes(self.address_type_ids)
+
+ if self.verbose:
+ print "Deleted address types", self.address_type_ids
+
+ self.address_type_ids = []
+
+ def AddAddresses(self, n = 3):
+ """
+ Add a number of random addresses to each site.
+ """
+
+ for site_id in self.site_ids:
+ for i in range(n):
+ address_fields = random_address()
+ address_id = AddSiteAddress(site_id, address_fields)
+
+ # Should return a unique address_id
+ assert address_id not in self.address_ids
+ self.address_ids.append(address_id)
+
+ if self.check:
+ # Check address
+ address = GetAddresses([address_id])[0]
+ for field in address_fields:
+ assert address[field] == address_fields[field]
+
+ # Update address
+ address_fields = random_address()
+ UpdateAddress(address_id, address_fields)
+
+ # Check address again
+ address = GetAddresses([address_id])[0]
+ for field in address_fields:
+ assert address[field] == address_fields[field]
+
+ # Add address types
+ for address_type_id in self.address_type_ids:
+ AddAddressTypeToAddress(address_type_id, address_id)
+
+ if self.check:
+ addresses = GetAddresses(self.address_ids)
+ assert set(self.address_ids) == set([address['address_id'] for address in addresses])
+ for address in addresses:
+ assert set(self.address_type_ids) == set(address['address_type_ids'])
+
+ if self.verbose:
+ print "Added addresses", self.address_ids
+
+ def DeleteAddresses(self):
+ """
+ Delete any random addresses we may have added.
+ """
+
+ # Delete site addresses
+ for address_id in self.address_ids:
+ # Remove address types
+ for address_type_id in self.address_type_ids:
+ DeleteAddressTypeFromAddress(address_type_id, address_id)
+
+ if self.check:
+ address = GetAddresses([address_id])[0]
+ assert not address['address_type_ids']
+
+ DeleteAddress(address_id)
+ if self.check:
+ assert not GetAddresses([address_id])
+
+ if self.check:
+ assert not GetAddresses(self.address_ids)
+
+ if self.verbose:
+ print "Deleted addresses", self.address_ids
+
+ self.address_ids = []
+
+ def AddPersons(self, n = 3):
+ """
+ Add a number of random users to each site.
+ """
+
+ roles = GetRoles()
+ role_ids = [role['role_id'] for role in roles]
+ roles = [role['name'] for role in roles]
+ roles = dict(zip(roles, role_ids))
+
+ for i in range(n):
+
+ # Add account
+ person_fields = random_person()
+ person_id = AddPerson(person_fields)
+
+ # Should return a unique person_id
+ assert person_id not in self.person_ids
+ self.person_ids.append(person_id)
+
+ if self.check:
+ # Check account
+ person = GetPersons([person_id])[0]
+ for field in person_fields:
+ if field != 'password':
+ assert person[field] == person_fields[field]
+
+ # Update account
+ person_fields = random_person()
+ UpdatePerson(person_id, person_fields)
+
+ # Check account again
+ person = GetPersons([person_id])[0]
+ for field in person_fields:
+ if field != 'password':
+ assert person[field] == person_fields[field]
+
+ auth = {'AuthMethod': "password",
+ 'Username': person_fields['email'],
+ 'AuthString': person_fields['password']}
+
+ if self.check:
+ # Check that account is disabled
+ try:
+ assert not AuthCheck(auth)
+ except:
+ pass
+
+ # Add random set of roles
+ person_roles = random.sample(['user', 'pi', 'tech'], randint(1, 3))
+ for person_role in person_roles:
+ role_id = roles[person_role]
+ AddRoleToPerson(role_id, person_id)
+
+ if self.check:
+ person = GetPersons([person_id])[0]
+ assert set(person_roles) == set(person['roles'])
+
+ # Enable account
+ UpdatePerson(person_id, {'enabled': True})
+
+ if self.check:
+ # Check that account is enabled
+ assert AuthCheck(auth)
+
+ # Associate account with random set of sites
+ person_site_ids = []
+ for site_id in random.sample(self.site_ids, randint(1, len(self.site_ids))):
+ AddPersonToSite(person_id, site_id)
+ person_site_ids.append(site_id)
+
+ if self.check:
+ # Make sure it really did it
+ person = GetPersons([person_id])[0]
+ assert set(person_site_ids) == set(person['site_ids'])
+
+ # Set a primary site
+ primary_site_id = random.sample(person_site_ids, randint(1, len(person_site_ids)))[0]
+ SetPersonPrimarySite(person_id, primary_site_id)
+
+ if self.check:
+ person = GetPersons([person_id])[0]
+ assert person['site_ids'][0] == primary_site_id
+
+ if self.verbose:
+ print "Added users", self.person_ids
+
+ def DeletePersons(self):
+ # Delete users
+ for person_id in self.person_ids:
+ # Remove from each site
+ for site_id in self.site_ids:
+ DeletePersonFromSite(person_id, site_id)
+
+ if self.check:
+ person = GetPersons([person_id])[0]
+ assert not person['site_ids']
+
+ # Revoke roles
+ person = GetPersons([person_id])[0]
+ for role_id in person['role_ids']:
+ DeleteRoleFromPerson(role_id, person_id)
+
+ if self.check:
+ person = GetPersons([person_id])[0]
+ assert not person['role_ids']
+
+ # Disable account
+ UpdatePerson(person_id, {'enabled': False})
+
+ if self.check:
+ person = GetPersons([person_id])[0]
+ assert not person['enabled']
+
+ # Delete account
+ DeletePerson(person_id)
+
+ if self.check:
+ assert not GetPersons([person_id])
+
+ if self.check:
+ assert not GetPersons(self.person_ids)
+
+ if self.verbose:
+ print "Deleted users", self.person_ids
+
+ self.person_ids = []
+
+if __name__ == "__main__":
+ parser = OptionParser()
+ parser.add_option("-c", "--check", action = "store_true", default = False, help = "Verify actions (default: %default)")
+ parser.add_option("-q", "--quiet", action = "store_true", default = False, help = "Be quiet (default: %default)")
+ parser.add_option("-p", "--populate", action = "store_true", default = False, help = "Do not cleanup (default: %default)")
+ (options, args) = parser.parse_args()
+ test = Test(check = options.check, verbose = not options.quiet)
+ test.run()
+ if not options.populate:
+ test.cleanup()
-#!/usr/bin/env python
-###
-##############################
-###
-### preparation / requirements
-###
-### two separate instances of myplc
-### for now they are located on the same box on lurch
-###
-### expectations :
-### your myplcs should more or less come out of the box,
-### I prefer not to alter the default PLC_ROOT_USER value,
-### instead we create a PI account on the site_id=1
-###
-##############################
+#!/usr/bin/python
-### xxx todo
-# check sites
-# check persons
-
-# support reloading without wiping everything off
-# dunno how to do (defvar plc)
-
-import getopt
-import sys
-import time
-
-import Shell
-import PLC.Methods
-
-# when running locally, we might wish to run only our local stuff
-dummy_print_methods = [ 'RefreshPeer' ]
-class DummyShell:
- class Callable:
- def __init__(self,method,index):
- self.method=method
- self.index=index
- self.printed=False
- def __call__ (self, *args, **kwds):
- if not self.printed or self.method in dummy_print_methods:
- print "Dummy method %s on remote peer %d skipped"%(self.method,self.index)
- self.printed=True
- return 0
- def __init__(self,index):
- self.index=index
- def init(self):
- for method in PLC.Methods.methods:
- # ignore path-defined methods for now
- if "." not in method:
- setattr(self,method,DummyShell.Callable(method,self.index))
- def show_config(self,*args):
- print 'DummyShell'
+for peer in GetPeers():
+ # Clear out everything
+ for node in GetPeerNodes(peer['node_ids']):
-####################
-import xmlrpclib
-import os
-
-## try to support reload
-try:
- globals()['plc']
-except:
- plc=[None,None,None]
-try:
- globals()['s']
-except:
- s=[None,None,None]
-
-####################
-# predefined stuff
-# number of 'system' persons
-# builtin maint, local root, 2 persons for the peering
-system_persons = 4
-# among that, 1 gets refreshed - other ones have conflicting names
-system_persons_cross = 1
-
-system_slices_ids = (1,)
-def system_slices ():
- return len(system_slices_ids)
-def total_slices ():
- return number_slices+system_slices()
-
-def system_slivers ():
- return len(system_slices_ids)
-
-# too tedious to do the maths : how many slices attached to node 1
-expected_slivers=None
-def total_slivers ():
- global expected_slivers
- if expected_slivers is None:
- expected_slivers=0
- actual_nodes_per_slice = min (number_nodes,number_nodes_per_slice)
- for ns in myrange(number_slices):
- slice_range = [ map_on_node (n+ns) for n in range(actual_nodes_per_slice)]
- if 1 in slice_range:
- expected_slivers += 1
- return expected_slivers+system_slivers()
-
-####################
-# set initial conditions
-# actual persons_per_slice is min(number_persons,number_persons_per_slice)
-# actual nodes_per_slice is min(number_nodes,number_nodes_per_slice)
-# this is to prevent quadractic test times on big tests
-def define_test (sites,persons,nodes,slices,
- keys_per_person,nodes_per_slice,persons_per_slice,fast_mode=None):
- global number_sites, number_persons, number_nodes, number_slices
- global number_keys_per_person, number_nodes_per_slice, number_persons_per_slice, fast_flag
- number_sites = sites
- number_persons=persons
- number_nodes=nodes
- number_slices=slices
- number_keys_per_person=keys_per_person
- number_nodes_per_slice=nodes_per_slice
- number_persons_per_slice=persons_per_slice
- if fast_mode is not None:
- fast_flag=fast_mode
-
-# when we run locally on a given peer
-local_peer=None
-
-def show_test():
- print '%d sites, %d persons, %d nodes & %d slices'%(
- number_sites,number_persons,number_nodes,number_slices)
- print '%d keys/person, %d nodes/slice & %d persons/slice'%(
- number_keys_per_person,number_nodes_per_slice,number_persons_per_slice)
- print 'fast_flag',fast_flag
- if local_peer is not None:
- print 'Running locally on index %d'%local_peer
-
-def mini():
- define_test(1,1,1,1,1,1,1,True)
-
-def normal():
- define_test (sites=4,persons=4,nodes=5,slices=4,
- keys_per_person=2,nodes_per_slice=3,persons_per_slice=6,fast_mode=False)
-
-def apply_factor (factor):
- global number_sites, number_persons, number_nodes, number_slices
- [number_sites, number_persons, number_nodes, number_slices] = \
- [factor*x for x in [number_sites, number_persons, number_nodes, number_slices]]
-
-
-# use only 1 key in this case
-big_factor=4
-def big():
- global number_sites, number_persons, number_nodes, number_slices
- number_sites=200
- number_persons=500
- number_nodes=350
- number_slices=500
- global nodes_per_slice
- nodes_per_slice=3
- global number_keys_per_person
- number_keys_per_person=1
- global number_persons_per_slice
- number_persons_per_slice=3
-
-#huge_factor=1000
-def huge():
- global number_sites, number_persons, number_nodes, number_slices
- number_sites=1000
- number_persons=2000
- number_nodes=3000
- number_slices=2000
- global nodes_per_slice
- nodes_per_slice=3
- global number_keys_per_person
- number_keys_per_person=1
- global number_persons_per_slice
- number_persons_per_slice=3
-
-# use mini test by default in interactive mode
-mini()
-#normal()
-
-####################
-# argh, for login_name that doesn't accept digits
-plain_numbers=['zero','one','two','three','four','five','six','seven','eight','nine','ten',
- 'eleven','twelve','thirteen','fourteen','fifteen','sixteen','seventeen','eighteen','nineteen','twenty']
-plain_digits=['a','b','c','d','e','f','g','h','i','j']
-####################
-plc[1]={ 'plcname':'Thierry plc1',
- 'hostname':'planetlab-devbox.inria.fr',
- 'url-format':'https://%s:443/PLCAPI/',
- 'builtin-admin-id':'root@plc1.org',
- 'builtin-admin-password':'root',
- 'peer-admin-name':'peer1@planet-lab.org',
- 'peer-admin-password':'peer',
- 'node-format':'n1-%03d.plc1.org',
- 'plainname' : 'one',
- 'site-format':'one%s',
- 'person-format' : 'user1-%d@plc1.org',
- 'key-format':'ssh-rsa 11key4plc11 user%d-key%d',
- 'person-password' : 'password1',
- }
-plc[2]={ 'plcname':'Thierry plc2',
- 'hostname':'lurch.cs.princeton.edu',
- 'url-format':'https://%s:443/PLCAPI/',
- 'builtin-admin-id':'root@plc2.org',
- 'builtin-admin-password':'root',
- 'peer-admin-name':'peer2@planet-lab.org',
- 'peer-admin-password':'peer',
- 'node-format':'n2-%03d.plc2.org',
- 'plainname' : 'two',
- 'site-format':'two%s',
- 'person-format' : 'user2-%d@plc2.org',
- 'key-format':'ssh-rsa 22key4plc22 user%d-key%d',
- 'person-password' : 'password2',
- }
-
-####################
-def peer_index(i):
- return 3-i
-
-def plc_name (i):
- return plc[i]['plcname']
-
-def site_name (i,n):
- x=site_login_base(i,n)
- return 'Site fullname '+x
-
-def site_login_base (i,n):
- # for huge
- if number_sites<len(plain_numbers):
- return plc[i]['site-format']%plain_numbers[n]
- else:
- string=''
- while True:
- quo=n/10
- rem=n%10
- string=plain_digits[rem]+string
- if quo == 0:
- break
- else:
- n=quo
- return plc[i]['site-format']%string
-
-def person_name (i,n):
- return plc[i]['person-format']%n
-
-def key_name (i,n,k):
- return plc[i]['key-format']%(n,k)
-
-def node_name (i,n):
- return plc[i]['node-format']%n
-
-def slice_name (i,n):
- site_index=map_on_site(n)
- return "%s_slice%d"%(site_login_base(i,site_index),n)
-
-def sat_name (i):
- return 'sat_%d'%i
-
-# to have indexes start at 1
-def map_on (n,max):
- result=(n%max)
- if result==0:
- result=max
- return result
-
-def myrange (n):
- return range (1,n+1,1)
-
-def map_on_site (n):
- return map_on (n,number_sites)
-
-def map_on_person (n):
- return map_on (n,number_persons)
-
-def map_on_node (n):
- return map_on (n,number_nodes)
-
-def message (*args):
- print "====================",
- print args
-
-##########
-def timer_start ():
- global epoch,last_time
- epoch = time.time()
- last_time=epoch
- print '+++ timer start'
-
-def timer_show ():
- global last_time
- now=time.time()
- print '+++ %.02f seconds ellapsed (%.02f)'%(now-epoch,now-last_time)
- last_time=now
-
-####################
-def test00_init (args=[1,2]):
- timer_start()
- ## have you loaded this file already (support for reload)
- for i in args:
- url=plc[i]['url-format']%plc[i]['hostname']
- plc[i]['url']=url
- if local_peer is None:
- # the regular remote mode
- argv=[sys.argv[0],
- '--url',url,
- '--user',plc[i]['builtin-admin-id'],
- '--password',plc[i]['builtin-admin-password']]
- print 'initializing s[%d]=>%s'%(i,url)
- s[i]=Shell.Shell(argv)
- s[i].init()
- elif local_peer == i:
- # local mode - use Shell's Direct mode - use /etc/planetlab/plc_config
- s[i]=Shell.Shell([sys.argv[0]])
- s[i].init()
- else:
- # remote peer in local mode : use dummy shell instead
- s[i]=DummyShell(i)
- s[i].init()
-
-def test00_print (args=[1,2]):
- for i in args:
- print '==================== s[%d]'%i
- s[i].show_config()
- print '===================='
-
-def check_nodes (el,ef,args=[1,2]):
- for i in args:
- # use a single request and sort afterwards for efficiency
- # could have used GetNodes's scope as well
- all_nodes = s[i].GetNodes()
- n = len ([ x for x in all_nodes if x['peer_id'] is None])
- f = len ([ x for x in all_nodes if x['peer_id'] is not None])
- print '%02d: Checking nodes: got %d local (e=%d) & %d foreign (e=%d)'%(i,n,el,f,ef)
- assert n==el
- assert f==ef
-
-def check_keys (el,ef,args=[1,2]):
- for i in args:
- # use a single request and sort afterwards for efficiency
- # could have used GetKeys's scope as well
- all_keys = s[i].GetKeys()
- n = len ([ x for x in all_keys if x['peer_id'] is None])
- f = len ([ x for x in all_keys if x['peer_id'] is not None])
- print '%02d: Checking keys: got %d local (e=%d) & %d foreign (e=%d)'%(i,n,el,f,ef)
- assert n==el
- assert f==ef
-
-def check_persons (el,ef,args=[1,2]):
- for i in args:
- # use a single request and sort afterwards for efficiency
- # could have used GetPersons's scope as well
- all_persons = s[i].GetPersons()
- n = len ([ x for x in all_persons if x['peer_id'] is None])
- f = len ([ x for x in all_persons if x['peer_id'] is not None])
- print '%02d: Checking persons: got %d local (e=%d) & %d foreign (e=%d)'%(i,n,el,f,ef)
- assert n==el
- assert f==ef
-
-# expected : local slices, foreign slices
-def check_slices (els,efs,args=[1,2]):
- for i in args:
- ls=len(s[i].GetSlices({'peer_id':None}))
- fs=len(s[i].GetSlices({'~peer_id':None}))
- print '%02d: Checking slices: got %d local (e=%d) & %d foreign (e=%d)'%(i,ls,els,fs,efs)
- assert els==ls
- assert efs==fs
-
-def show_nodes (i,node_ids):
- # same as above
- all_nodes = s[i].GetNodes(node_ids)
- loc_nodes = filter (lambda n: n['peer_id'] is None, all_nodes)
- for_nodes = filter (lambda n: n['peer_id'] is not None, all_nodes)
-
- for message,nodes in [ ['LOC',loc_nodes], ['FOR',for_nodes] ] :
- if nodes:
- print '[%s:%d] : '%(message,len(nodes)),
- for node in nodes:
- print node['hostname']+' ',
- print ''
-
-def check_slice_nodes (expected_nodes, is_local_slice, args=[1,2]):
- for ns in myrange(number_slices):
- check_slice_nodes_n (ns,expected_nodes, is_local_slice, args)
-
-def check_slice_nodes_n (ns,expected_nodes, is_local_slice, args=[1,2]):
- for i in args:
- peer=peer_index(i)
- if is_local_slice:
- sname=slice_name(i,ns)
- slice=s[i].GetSlices({'name':[sname],'peer_id':None})[0]
- message='local'
- else:
- sname=slice_name(peer,ns)
- slice=s[i].GetSlices({'name':[sname],'~peer_id':None})[0]
- message='foreign'
- print '%02d: %s slice %s (e=%d) '%(i,message,sname,expected_nodes),
- slice_node_ids=slice['node_ids']
- print 'on nodes ',slice_node_ids
- show_nodes (i,slice_node_ids)
- assert len(slice_node_ids)>=expected_nodes
- if len(slice_node_ids) != expected_nodes:
- print 'TEMPORARY'
-
-# expected : nodes on local slice
-def check_local_slice_nodes (expected, args=[1,2]):
- check_slice_nodes(expected,True,args)
-
-# expected : nodes on foreign slice
-def check_foreign_slice_nodes (expected, args=[1,2]):
- check_slice_nodes(expected,False,args)
-
-def check_conf_files (args=[1,2]):
- for nn in myrange(number_nodes):
- check_conf_files_n (nn,args)
-
-def check_conf_files_n (nn,args=[1,2]):
- for i in args:
- nodename=node_name(i,nn)
- ndict= s[i].GetSlivers([nodename])[0]
- assert ndict['hostname'] == nodename
- conf_files = ndict['conf_files']
- print '%02d: %d conf_files in GetSlivers for node %s'%(i,len(conf_files),nodename)
- for conf_file in conf_files:
- print 'source=',conf_file['source'],'|',
- print 'dest=',conf_file['dest'],'|',
- print 'enabled=',conf_file['enabled'],'|',
- print ''
-
-import pprint
-pp = pprint.PrettyPrinter(indent=3)
-
-def check_slivers (esn,args=[1,2]):
- for nn in myrange(number_nodes):
- check_slivers_n (nn,esn,args)
-
-# too verbose to check all nodes, let's check only the first one
-def check_slivers_1 (esn,args=[1,2]):
- check_slivers_n (1,esn,args)
-
-def check_slivers_n (nn,esn,args=[1,2]):
- for i in args:
- nodename=node_name(i,nn)
- ndict= s[i].GetSlivers([nodename])[0]
- assert ndict['hostname'] == nodename
- slivers = ndict['slivers']
- print '%02d: %d slivers (exp. %d) in GetSlivers for node %s'\
- %(i,len(slivers),esn,nodename)
- for sliver in slivers:
- print '>>slivername = ',sliver['name']
- pretty_printer.pprint(sliver)
- assert len(slivers) == esn
-
-
-####################
-def test00_admin_person (args=[1,2]):
- global plc
- for i in args:
- email = plc[i]['peer-admin-name']
- try:
- p=s[i].GetPersons([email])[0]
- plc[i]['peer-admin-id']=p['person_id']
- except:
- person_id=s[i].AddPerson({'first_name':'Local',
- 'last_name':'PeerPoint',
- 'role_ids':[10],
- 'email':email,
- 'password':plc[i]['peer-admin-password']})
- if person_id:
- print '%02d:== created peer admin account %d, %s - %s'%(
- i, person_id,plc[i]['peer-admin-name'],plc[i]['peer-admin-password'])
- plc[i]['peer-admin-id']=person_id
-
-def test00_admin_enable (args=[1,2]):
- for i in args:
- if s[i].AdmSetPersonEnabled(plc[i]['peer-admin-id'],True):
- s[i].AddRoleToPerson('admin',plc[i]['peer-admin-id'])
- print '%02d:== enabled+admin on account %d:%s'%(i,plc[i]['peer-admin-id'],plc[i]['peer-admin-name'])
-
-def test00_peer_person (args=[1,2]):
- global plc
- for i in args:
- peer=peer_index(i)
- email=plc[peer]['peer-admin-name']
- try:
- p=s[i].GetPersons([email])[0]
- plc[i]['peer_person_id']=p['person_id']
- except:
- person_id = s[i].AddPerson ( {'first_name':'Peering(plain passwd)', 'last_name':plc_name(peer), 'role_ids':[3000],
- 'email':email,'password':plc[peer]['peer-admin-password']})
- if person_id:
- print '%02d:== Created person %d as the auth peer person'%(i,person_id)
- plc[i]['peer_person_id']=person_id
-
-####################
-def test00_peer (args=[1,2]):
- global plc
- for i in args:
- peer=peer_index(i)
- peername = plc_name(peer)
- try:
- p=s[i].GetPeers ( [peername])[0]
- plc[i]['peer_id']=p['peer_id']
- except:
- peer_id=s[i].AddPeer ( {'peername':peername,'peer_url':plc[peer]['url'],'auth_person_id':plc[i]['peer_person_id']})
- # NOTE : need to manually reset the encrypted password through SQL at this point
- if peer_id:
- print '%02d:Created peer %d'%(i,peer_id)
- print "PLEASE manually set password for person_id=%d in DB%d"%(plc[i]['peer_person_id'],i)
- plc[i]['peer_id']=peer_id
-
-def test00_peer_passwd (args=[1,2]):
- if local_peer is None:
- for i in args:
- # using an ad-hoc local command for now - never could get quotes to reach sql....
- print "Attempting to remotely set passwd for person_id=%d in DB%d"%(plc[i]['peer_person_id'],i),
- retcod=os.system("ssh root@%s new_plc_api/person-password.sh %d"%(plc[i]['hostname'],plc[i]['peer_person_id']))
- print '-> system returns',retcod
- else:
- i=local_peer
- print "Locally setting passwd for person_id=%d in DB%d"%(plc[i]['peer_person_id'],i),
- retcod=os.system("./person-password.sh -l %d"%(plc[i]['peer_person_id']))
- print '-> system returns',retcod
-
-# this one gets cached
-def get_peer_id (i):
- try:
- return plc[i]['peer_id']
- except:
- peername = plc_name (peer_index(i))
- peer_id = s[i].GetPeers([peername])[0]['peer_id']
- plc[i]['peer_id'] = peer_id
- return peer_id
-
-##############################
-def test00_refresh (message,args=[1,2]):
- print '=== refresh',message
- timer_show()
- for i in args:
- print '%02d:== Refreshing peer'%(i),
- retcod=s[i].RefreshPeer(get_peer_id(i))
- keys=retcod.keys()
- keys.sort()
- print "Result: {",
- for key in keys:
- if "time" not in key:
- print key,retcod[key],
- print "}"
- print "+++ ellapsed: {",
- timers=retcod['timers']
- keys=timers.keys()
- keys.sort()
- for key in keys:
- print key,timers[key],
- print "}"
- timer_show()
-
-####################
-def test01_site (args=[1,2]):
- for ns in myrange(number_sites):
- test01_site_n (ns,True,args)
-
-def test01_del_site (args=[1,2]):
- for ns in myrange(number_sites):
- test01_site_n (ns,False,args)
-
-def test01_site_n (ns,add_if_true,args=[1,2]):
- for i in args:
- login_base = site_login_base (i,ns)
- try:
- site_id = s[i].GetSites([login_base])[0]['site_id']
- if not add_if_true:
- if s[i].DeleteSite(site_id):
- print "%02d:== deleted site_id %d"%(i,site_id)
- except:
- if add_if_true:
- sitename=site_name(i,ns)
- abbrev_name="abbr"+str(i)
- max_slices = number_slices
- site_id=s[i].AddSite ( {'name':plc_name(i),
- 'abbreviated_name': abbrev_name,
- 'login_base': login_base,
- 'is_public': True,
- 'url': 'http://%s.com/'%abbrev_name,
- 'max_slices':max_slices})
- ### max_slices does not seem taken into account at that stage
- if site_id:
- s[i].UpdateSite(site_id,{'max_slices':max_slices})
- print '%02d:== Created site %d with max_slices=%d'%(i,site_id,max_slices)
-
-####################
-def test02_person (args=[1,2]):
- for np in myrange(number_persons):
- test02_person_n (np,True,args)
-
-def test02_del_person (args=[1,2]):
- for np in myrange(number_persons):
- test02_person_n (np,False,args)
-
-def test02_person_n (np,add_if_true,args=[1,2]):
- test02_person_n_ks (np, myrange(number_keys_per_person),add_if_true,args)
-
-def test02_person_n_ks (np,nks,add_if_true,args=[1,2]):
- for i in args:
- email = person_name(i,np)
- try:
- person_id=s[i].GetPersons([email])[0]['person_id']
- if not add_if_true:
- if s[i].DeletePerson(person_id):
- print "%02d:== deleted person_id %d"%(i,person_id)
- except:
- if add_if_true:
- password = plc[i]['person-password']
- person_id=s[i].AddPerson({'first_name':'Your average',
- 'last_name':'User%d'%np,
- 'role_ids':[30],
- 'email':email,
- 'password': password })
- if person_id:
- print '%02d:== created user account %d, %s - %s'%(i, person_id,email,password)
- for nk in nks:
- key=key_name(i,np,nk)
- s[i].AddPersonKey(email,{'key_type':'ssh', 'key':key})
- print '%02d:== added key %s to person %s'%(i,key,email)
-
-####################
-# retrieves node_id from hostname - checks for local nodes only
-def get_local_node_id(i,nodename):
- return s[i].GetNodes({'hostname':nodename,'peer_id':None})[0]['node_id']
-
-# clean all local nodes - foreign nodes are not supposed to be cleaned up manually
-def clean_all_nodes (args=[1,2]):
- for i in args:
- print '%02d:== Cleaning all nodes'%i
- local_nodes = s[i].GetNodes({'peer_id':None})
- if local_nodes:
- for node in local_nodes:
- print '%02d:==== Cleaning node %d'%(i,node['node_id'])
- s[i].DeleteNode(node['node_id'])
-
-def test03_node (args=[1,2]):
- for nn in myrange(number_nodes):
- test03_node_n (nn,args)
-
-def test03_node_n (nn,args=[1,2]):
- for i in args:
- nodename = node_name(i,nn)
- try:
- get_local_node_id(i,nodename)
- except:
- login_base=site_login_base(i,map_on_site(nn))
- n=s[i].AddNode(login_base,{'hostname': nodename})
- if n:
- print '%02d:== Added node %d %s'%(i,n,node_name(i,nn))
-
-def test02_delnode (args=[1,2]):
- for nn in myrange(number_nodes):
- test02_delnode_n (nn,args)
-
-def test02_delnode_n (nn,args=[1,2]):
- for i in args:
- nodename = node_name(i,nn)
- node_id = get_local_node_id (i,nodename)
- retcod=s[i].DeleteNode(nodename)
- if retcod:
- print '%02d:== Deleted node %d, returns %s'%(i,node_id,retcod)
-
-####################
-def clean_all_slices (args=[1,2]):
- for i in args:
- print '%02d:== Cleaning all slices'%i
- for slice in s[i].GetSlices({'peer_id':None}):
- slice_id = slice['slice_id']
- if slice_id not in system_slices_ids:
- if s[i].DeleteSlice(slice_id):
- print '%02d:==== Cleaned slice %d'%(i,slice_id)
-
-def test04_slice (args=[1,2]):
- for n in myrange(number_slices):
- test04_slice_n (n,args)
-
-def test04_slice_n (ns,args=[1,2]):
- for i in args:
- peer=peer_index(i)
- plcname=plc_name(i)
- slicename=slice_name(i,ns)
- max_nodes=number_nodes
- try:
- s[i].GetSlices([slicename])[0]
- except:
- slice_id=s[i].AddSlice ({'name':slicename,
- 'description':'slice %s on %s'%(slicename,plcname),
- 'url':'http://planet-lab.org/%s'%slicename,
- 'max_nodes':max_nodes,
- 'instanciation':'plc-instantiated',
- })
- if slice_id:
- print '%02d:== created slice %d - max nodes=%d'%(i,slice_id,max_nodes)
- actual_persons_per_slice = min (number_persons,number_persons_per_slice)
- person_indexes=[map_on_person (p+ns) for p in range(actual_persons_per_slice)]
- for np in person_indexes:
- email = person_name (i,np)
- retcod = s[i].AddPersonToSlice (email, slicename)
- print '%02d:== Attached person %s to slice %s'%(i,email,slicename)
-
-
-def test04_node_slice (is_local, add_if_true, args=[1,2]):
- for ns in myrange(number_slices):
- test04_node_slice_ns (ns,is_local, add_if_true, args)
-
-def test04_node_slice_ns (ns,is_local, add_if_true, args=[1,2]):
- actual_nodes_per_slice = min (number_nodes,number_nodes_per_slice)
- node_indexes = [ map_on_node (n+ns) for n in range(actual_nodes_per_slice)]
- test04_node_slice_nl_n (node_indexes,ns,is_local, add_if_true, args)
-
-def test04_node_slice_nl_n (nnl,ns,is_local, add_if_true, args=[1,2]):
- for i in args:
- peer=peer_index(i)
- sname = slice_name (i,ns)
-
- if is_local:
- hostnames=[node_name(i,nn) for nn in nnl]
- nodetype='local'
- else:
- hostnames=[node_name(peer,nn) for nn in nnl]
- nodetype='foreign'
- if add_if_true:
- res=s[i].AddSliceToNodes (sname,hostnames)
- message="added"
- else:
- res=s[i].DeleteSliceFromNodes (sname,hostnames)
- message="deleted"
- if res:
- print '%02d:== %s in slice %s %s '%(i,message,sname,nodetype),
- print hostnames
-
-def test04_slice_add_lnode (args=[1,2]):
- test04_node_slice (True,True,args)
-
-def test04_slice_add_fnode (args=[1,2]):
- test04_node_slice (False,True,args)
-
-def test04_slice_del_lnode (args=[1,2]):
- test04_node_slice (True,False,args)
-
-def test04_slice_del_fnode (args=[1,2]):
- test04_node_slice (False,False,args)
-
-####################
-def test05_sat (args=[1,2]):
- for i in args:
- name = sat_name(i)
- try:
- sat_id=s[i].GetSliceAttributeTypes ([name])[0]
- except:
- description="custom sat on plc%d"%i
- min_role_id=10
- sat_id=s[i].AddSliceAttributeType ({ 'name':name,
- 'description': description,
- 'min_role_id' : min_role_id})
- if sat_id:
- print '%02d:== created SliceAttributeType = %d'%(i,sat_id)
-
-# for test, we create 4 slice_attributes
-# on slice1 - sat=custom_made (see above) - all nodes
-# on slice1 - sat=custom_made (see above) - node=n1
-# on slice1 - sat='net_max' - all nodes
-# on slice1 - sat='net_max' - node=n1
-
-def test05_sa_atom (slice_name,sat_name,value,node,i):
- sa_id=s[i].GetSliceAttributes({'name':sat_name,
- 'value':value})
- if not sa_id:
- if node:
- sa_id=s[i].AddSliceAttribute(slice_name,
- sat_name,
- value,
- node)
- else:
- print 'slice_name',slice_name,'sat_name',sat_name
- sa_id=s[i].AddSliceAttribute(slice_name,
- sat_name,
- value)
- if sa_id:
- print '%02d:== created SliceAttribute = %d'%(i,sa_id),
- print 'On slice',slice_name,'and node',node
-
-def test05_sa (args=[1,2]):
- for i in args:
- test05_sa_atom (slice_name(i,1),sat_name(i),'custom sat/all nodes',None,i)
- test05_sa_atom (slice_name(i,1),sat_name(i),'custom sat/node1',node_name(i,1),i)
- test05_sa_atom (slice_name(i,1),'net_max','predefined sat/all nodes',None,i)
- test05_sa_atom (slice_name(i,1),'net_max','predefined sat/node1',node_name(i,1),i)
-
-##############################
-# readable dumps
-##############################
-def p_site (s):
- print s['site_id'],s['peer_id'],s['login_base'],s['name'],s['node_ids']
-
-def p_key (k):
- print k['key_id'],k['peer_id'],k['key']
-
-def p_person (p):
- print p['person_id'],p['peer_id'],p['email'],'keys:',p['key_ids'],'sites:',p['site_ids']
-
-def p_node(n):
- print n['node_id'],n['peer_id'],n['hostname'],'sls=',n['slice_ids'],'site=',n['site_id']
-
-def p_slice(s):
- print s['slice_id'],s['peer_id'],s['name'],'nodes=',s['node_ids'],'persons=',s['person_ids']
- print '---','sas=',s['slice_attribute_ids'],s['name'],'crp=',s['creator_person_id']
- print "--- 'expires':",s['expires']
-
-def p_sat(sat):
- print sat['attribute_type_id'],sat['peer_id'], sat['name'], sat['min_role_id'], sat['description']
-
-def p_sa (sa):
- print sa['slice_attribute_id'],sa['peer_id'],sa['name'],'AT_id:',sa['attribute_type_id']
- print '---','v=',sa['value'],'sl=',sa['slice_id'],'n=',sa['node_id']
-
-import pprint
-pretty_printer=pprint.PrettyPrinter(5)
-
-def p_sliver (margin,x):
- print margin,'SLIVERS for : hostname',x['hostname']
- print margin,'%d config files'%len(x['conf_files'])
- for sv in x['slivers']:
- p_sliver_slice(margin,sv,x['hostname'])
-
-def p_sliver_slice(margin,sliver,hostname):
- print margin,'SLIVER on hostname %s, s='%hostname,sliver['name']
- print margin,'KEYS',
- pretty_printer.pprint(sliver['keys'])
- print margin,'ATTRIBUTES',
- pretty_printer.pprint(sliver['attributes'])
-
-def dump (args=[1,2]):
- for i in args:
- print '%02d:============================== DUMPING'%i
- print '%02d: SITES'%i
- [p_site(x) for x in s[i].GetSites()]
- print '%02d: KEYS'%i
- [p_key(x) for x in s[i].GetKeys()]
- print '%02d: PERSONS'%i
- [p_person(x) for x in s[i].GetPersons()]
- print '%02d: NODES'%i
- [p_node(x) for x in s[i].GetNodes()]
- print '%02d: SLICES'%i
- [p_slice(x) for x in s[i].GetSlices()]
- print '%02d: Slice Attribute Types'%i
- [p_sat(x) for x in s[i].GetSliceAttributeTypes()]
- print '%02d: Slice Attributes'%i
- [p_sa(x) for x in s[i].GetSliceAttributes()]
- timer_show()
- print '%02d: Gathering all slivers'%i
- slivers = s[i].GetSlivers()
- timer_show()
- snodes=min(3,number_nodes)
- print '%02d: SLIVERS for first %d nodes'%(i,snodes)
- [p_sliver('%02d:'%i,x) for x in s[i].GetSlivers(myrange(snodes))]
- print '%02d:============================== END DUMP'%i
-
-
-## for usage under the api
-def pt ():
- for x in GetSites():
- p_site(x)
-
-def pk ():
- for x in GetKeys():
- print (x['key_id'],x['peer_id'],x['key'])
-
-def pp ():
- for x in GetPersons():
- p_person(x)
-
-def pn ():
- for x in GetNodes():
- p_node(x)
-
-def ps ():
- for x in GetSlices():
- p_slice(x)
-
-def psat():
- for x in GetSliceAttributeTypes():
- p_sat(x)
-
-def psa():
- for x in GetSliceAttributes():
- p_sa(x)
-
-def pv ():
- for s in GetSlivers():
- p_sliver('',s)
-
-def all():
- print 'SITES'
- pt()
- print 'KEYS'
- pk()
- print 'PERSONS'
- pp()
- print 'NODES'
- pn()
- print 'SLICES'
- ps()
- print 'SLICE ATTR TYPES'
- psat()
- print 'SLICE ATTRS'
- psa()
- print 'SLIVERS'
- pv()
-
-
-####################
-def test_all_init ():
- message ("INIT")
- test00_init ()
- test00_print ()
- test00_admin_person ()
- test00_admin_enable ()
- test00_peer_person ()
- test00_peer ()
- test00_peer_passwd ()
-
-def test_all_sites ():
- test01_site ()
- test00_refresh ('after site creation')
-
-def test_all_persons ():
- test02_del_person()
- test00_refresh ('before persons&keys creation')
- check_keys(0,0)
- check_persons(system_persons,system_persons_cross)
- message ("Creating persons&keys")
- test02_person ()
- if not fast_flag:
- message ("1 extra del/add cycle for unique indexes")
- test02_del_person([2])
- test02_person([2])
- check_keys(number_persons*number_keys_per_person,0)
- check_persons(system_persons+number_persons,system_persons_cross)
- test00_refresh ('after persons&keys creation')
- check_keys(number_persons*number_keys_per_person,number_persons*number_keys_per_person)
- check_persons(system_persons+number_persons,system_persons_cross+number_persons)
-
-def test_all_nodes ():
-
- message ("RESETTING NODES")
- clean_all_nodes ()
- test00_refresh ('cleaned nodes')
- check_nodes(0,0)
-
- # create one node on each site
- message ("CREATING NODES")
- test03_node ()
- check_nodes(number_nodes,0)
- test00_refresh ('after node creation')
- check_nodes(number_nodes,number_nodes)
- test02_delnode([2])
- if not fast_flag:
- message ("2 extra del/add cycles on plc2 for different indexes")
- test03_node ([2])
- test02_delnode([2])
- test03_node ([2])
- test02_delnode([2])
- check_nodes(0,number_nodes,[2])
- test00_refresh('after deletion on plc2')
- check_nodes(number_nodes,0,[1])
- check_nodes(0,number_nodes,[2])
- message ("ADD on plc2 for different indexes")
- test03_node ([2])
- check_nodes (number_nodes,0,[1])
- check_nodes (number_nodes,number_nodes,[2])
- test00_refresh('after re-creation on plc2')
- check_nodes (number_nodes,number_nodes,)
-
-def test_all_addslices ():
-
- # reset
- message ("RESETTING SLICES TEST")
- clean_all_nodes ()
- test03_node ()
- clean_all_slices ()
- test00_refresh ("After slices init")
-
- # create slices on plc1
- message ("CREATING SLICES on plc1")
- test04_slice ([1])
-
- check_slices (total_slices(),system_slices(),[1])
- check_slices (system_slices(),system_slices(),[2])
- test00_refresh ("after slice created on plc1")
- check_slices (total_slices(),system_slices(),[1])
- check_slices (system_slices(),total_slices(),[2])
- # no slice has any node yet
- check_local_slice_nodes(0,[1])
- check_foreign_slice_nodes(0,[2])
-
- # insert local nodes in local slice on plc1
- message ("ADDING LOCAL NODES IN SLICES")
- test04_slice_add_lnode ([1])
- # of course the change is only local
- check_local_slice_nodes (number_nodes_per_slice,[1])
- check_foreign_slice_nodes(0,[2])
-
- # refreshing
- test00_refresh ("After local nodes were added on plc1")
- check_local_slice_nodes (number_nodes_per_slice,[1])
- check_foreign_slice_nodes (number_nodes_per_slice,[2])
-
- # now we add foreign nodes into local slice
- message ("ADDING FOREIGN NODES IN SLICES")
- test04_slice_add_fnode ([1])
- check_local_slice_nodes (2*number_nodes_per_slice,[1])
- check_foreign_slice_nodes (number_nodes_per_slice,[2])
-
- # refreshing
- test00_refresh ("After foreign nodes were added in plc1")
- # remember that foreign slices only know about LOCAL nodes
- # so this does not do anything
- check_local_slice_nodes (2*number_nodes_per_slice,[1])
- check_foreign_slice_nodes (2*number_nodes_per_slice,[2])
-
- check_slivers_1(total_slivers())
-
-def test_all_delslices ():
-
- message ("DELETING FOREIGN NODES FROM SLICES")
- test04_slice_del_fnode([1])
- check_local_slice_nodes (number_nodes_per_slice,[1])
- check_foreign_slice_nodes (2*number_nodes_per_slice,[2])
- # mmh?
- check_slivers_1(total_slivers(),[1])
-
- test00_refresh ("After foreign nodes were removed on plc1")
- check_local_slice_nodes (number_nodes_per_slice,[1])
- check_foreign_slice_nodes (number_nodes_per_slice,[2])
-
- message ("DELETING LOCAL NODES FROM SLICES")
- test04_slice_del_lnode([1])
- check_local_slice_nodes (0,[1])
- check_foreign_slice_nodes (number_nodes_per_slice,[2])
-
- test00_refresh ("After local nodes were removed on plc1")
- check_local_slice_nodes (0,[1])
- check_foreign_slice_nodes (0,[2])
-
- message ("CHECKING SLICES CLEAN UP")
- clean_all_slices([1])
- check_slices (system_slices(),system_slices(),[1])
- check_slices (system_slices(),total_slices(),[2])
- test00_refresh ("After slices clenaup")
- check_slices(system_slices(),system_slices())
-
-def test_all_slices ():
- test_all_addslices ()
- test_all_delslices ()
-
-def test_all_sats ():
- test05_sat ()
- test00_refresh("after SliceAttributeType creation")
-
-def test_all ():
- test_all_init ()
- timer_show()
- test_all_sites ()
- timer_show()
- test_all_persons ()
- timer_show()
- test_all_nodes ()
- timer_show()
- test_all_slices ()
- timer_show()
- test_all_sats ()
- timer_show()
- dump()
- timer_show()
- message("END")
-
-### ad hoc test sequences
-# we just create objects here so we can dump the DB
-def populate ():
- timer_start()
- test_all_init()
- timer_show()
- test01_site()
- timer_show()
- test02_person()
- timer_show()
- test03_node()
- timer_show()
- test04_slice([1])
- timer_show()
- test04_slice_add_lnode([1])
- timer_show()
- test05_sat()
- timer_show()
- test05_sa([1])
- timer_show()
- message("END")
-
-def populate_end():
- test00_init()
- test00_refresh ("Peer 1 for publishing foreign nodes from 2",[1])
- timer_show()
- test04_slice_add_fnode([1])
- timer_show()
- test00_refresh("populate: refresh all")
- timer_show()
- test00_refresh("empty refresh")
- dump()
- timer_show()
- message("END")
-
-# temporary - scratch as needed
-def test_now ():
- populate()
- test00_refresh('peer 1 gets plc2 nodes',[1])
- test04_slice_add_fnode([1])
- test00_refresh('final',[1])
-
-# test_all_sites ()
-# clean_all_nodes()
-# clean_all_slices()
-# populate()
-
-#####
-def usage ():
- print "Usage: %s [-n] [-f]"%sys.argv[0]
- print " -n runs test_now instead of test_all"
- print " -p runs populate instead of test_all"
- print " -e runs populate_end of test_all"
- print " -m run in mini mode (1 instance of each class)"
- print " -b performs big run"
- print " -H performs huge run"
- print " -f n : increases normal sizes by <n>"
- print " -l n : tester runs locally for peer <n>, rather than through xmlrpc"
-
- sys.exit(1)
-
-def main ():
- try:
- (o,a) = getopt.getopt(sys.argv[1:], "emnpbHf:l:")
- except:
- usage()
- func = test_all
- for (opt,val) in o:
- if opt=='-n':
- print 'Running test_now'
- func = test_now
- elif opt=='-p':
- print 'Running populate'
- func = populate
- elif opt=='-e':
- print 'Running populate_end'
- func = populate_end
- elif opt=='-m':
- mini()
- elif opt=='-b':
- big()
- elif opt=='-H':
- huge()
- elif opt=='-f':
- factor=int(val)
- apply_factor(factor)
- elif opt=='-l':
- global local_peer
- local_peer=int(val)
- if local_peer not in (1,2):
- usage()
- else:
- usage()
- if a:
- usage()
- show_test()
- func()
- timer_show()
-if __name__ == '__main__':
- normal()
- main()
-
+ print "Refreshing peer", peer['peername']
+ print RefreshPeer(peer['peer_id'])
--
-- Copyright (C) 2006 The Trustees of Princeton University
--
--- $Id: planetlab4.sql,v 1.55 2006/12/15 19:39:04 mlhuang Exp $
+-- $Id: planetlab4.sql,v 1.56 2006/12/20 14:06:40 tmack Exp $
--
--------------------------------------------------------------------------------
-- Version
--------------------------------------------------------------------------------
---version
+-- Database version
CREATE TABLE plc_db_version (
version integer NOT NULL
) WITH OIDS;
INSERT INTO plc_db_version (version) VALUES (4);
---------------------------------------------------------------------------------
--- Peers
---------------------------------------------------------------------------------
-
--- Peers
-CREATE TABLE peers (
- peer_id serial PRIMARY KEY, -- identifier
- peername text NOT NULL, -- free text
- peer_url text NOT NULL, -- the url of that peer's API
- cacert text, -- (SSL) Public certificate of peer API server
- key text, -- (GPG) Public key used for authentication
-
- deleted boolean NOT NULL DEFAULT false
-) WITH OIDS;
-
--------------------------------------------------------------------------------
-- Accounts
--------------------------------------------------------------------------------
enabled boolean NOT NULL DEFAULT false, -- Has been disabled
-- Password
- password text NOT NULL, -- Password (md5crypted)
+ password text NOT NULL DEFAULT 'nopass', -- Password (md5crypted)
verification_key text, -- Reset password key
verification_expires timestamp without time zone,
-- Timestamps
date_created timestamp without time zone NOT NULL DEFAULT CURRENT_TIMESTAMP,
- last_updated timestamp without time zone NOT NULL DEFAULT CURRENT_TIMESTAMP,
-
- peer_id integer REFERENCES peers -- From which peer
+ last_updated timestamp without time zone NOT NULL DEFAULT CURRENT_TIMESTAMP
) WITH OIDS;
CREATE INDEX persons_email_idx ON persons (email) WHERE deleted IS false;
-- Timestamps
date_created timestamp without time zone NOT NULL DEFAULT CURRENT_TIMESTAMP,
- last_updated timestamp without time zone NOT NULL DEFAULT CURRENT_TIMESTAMP,
-
- peer_id integer REFERENCES peers -- From which peer
+ last_updated timestamp without time zone NOT NULL DEFAULT CURRENT_TIMESTAMP
) WITH OIDS;
CREATE INDEX sites_login_base_idx ON sites (login_base) WHERE deleted IS false;
key_id serial PRIMARY KEY, -- Key identifier
key_type text REFERENCES key_types NOT NULL, -- Key type
key text NOT NULL, -- Key material
- is_blacklisted boolean NOT NULL DEFAULT false, -- Has been blacklisted
- peer_id integer REFERENCES peers -- From which peer
+ is_blacklisted boolean NOT NULL DEFAULT false -- Has been blacklisted
) WITH OIDS;
-- Account authentication key(s)
CREATE TABLE person_key (
- person_id integer REFERENCES persons NOT NULL, -- Account identifier
- key_id integer REFERENCES keys NOT NULL, -- Key identifier
- PRIMARY KEY (person_id, key_id)
+ key_id integer REFERENCES keys PRIMARY KEY, -- Key identifier
+ person_id integer REFERENCES persons NOT NULL -- Account identifier
) WITH OIDS;
CREATE INDEX person_key_person_id_idx ON person_key (person_id);
-CREATE INDEX person_key_key_id_idx ON person_key (key_id);
CREATE VIEW person_keys AS
SELECT person_id,
-- Timestamps
date_created timestamp without time zone NOT NULL DEFAULT CURRENT_TIMESTAMP,
- last_updated timestamp without time zone NOT NULL DEFAULT CURRENT_TIMESTAMP,
-
- peer_id integer REFERENCES peers -- From which peer
+ last_updated timestamp without time zone NOT NULL DEFAULT CURRENT_TIMESTAMP
) WITH OIDS;
CREATE INDEX nodes_hostname_idx ON nodes (hostname) WHERE deleted IS false;
CREATE INDEX nodes_site_id_idx ON nodes (site_id) WHERE deleted IS false;
CREATE TABLE slices (
slice_id serial PRIMARY KEY, -- Slice identifier
site_id integer REFERENCES sites NOT NULL, -- Site identifier
- peer_id integer REFERENCES peers, -- on which peer
name text NOT NULL, -- Slice name
instantiation text REFERENCES slice_instantiations NOT NULL DEFAULT 'plc-instantiated', -- Slice state, e.g. plc-instantiated
attribute_type_id serial PRIMARY KEY, -- Attribute type identifier
name text UNIQUE NOT NULL, -- Attribute name
description text, -- Attribute description
- min_role_id integer REFERENCES roles DEFAULT 10, -- If set, minimum (least powerful) role that can set or change this attribute
-
- peer_id integer REFERENCES peers -- From which peer
+ min_role_id integer REFERENCES roles DEFAULT 10 -- If set, minimum (least powerful) role that can set or change this attribute
) WITH OIDS;
-- Slice/sliver attributes
slice_id integer REFERENCES slices NOT NULL, -- Slice identifier
node_id integer REFERENCES nodes, -- Sliver attribute if set
attribute_type_id integer REFERENCES slice_attribute_types NOT NULL, -- Attribute type identifier
- value text,
-
- peer_id integer REFERENCES peers -- From which peer
+ value text
) WITH OIDS;
CREATE INDEX slice_attribute_slice_id_idx ON slice_attribute (slice_id);
CREATE INDEX slice_attribute_node_id_idx ON slice_attribute (node_id);
FROM slice_attribute
GROUP BY slice_id;
+--------------------------------------------------------------------------------
+-- Peers
+--------------------------------------------------------------------------------
+
+-- Peers
+CREATE TABLE peers (
+ peer_id serial PRIMARY KEY, -- Peer identifier
+ peername text NOT NULL, -- Peer name
+ peer_url text NOT NULL, -- (HTTPS) URL of the peer PLCAPI interface
+ cacert text, -- (SSL) Public certificate of peer API server
+ key text, -- (GPG) Public key used for authentication
+ deleted boolean NOT NULL DEFAULT false
+) WITH OIDS;
+CREATE INDEX peers_peername_idx ON peers (peername) WHERE deleted IS false;
+
+-- Objects at each peer
+CREATE TABLE peer_site (
+ site_id integer REFERENCES sites PRIMARY KEY, -- Local site identifier
+ peer_id integer REFERENCES peers NOT NULL, -- Peer identifier
+ peer_site_id integer NOT NULL, -- Foreign site identifier at peer
+ UNIQUE (peer_id, peer_site_id) -- The same foreign site should not be cached twice
+) WITH OIDS;
+CREATE INDEX peer_site_peer_id_idx ON peers (peer_id);
+
+CREATE VIEW peer_sites AS
+SELECT peer_id,
+array_accum(site_id) AS site_ids,
+array_accum(peer_site_id) AS peer_site_ids
+FROM peer_site
+GROUP BY peer_id;
+
+CREATE TABLE peer_person (
+ person_id integer REFERENCES persons PRIMARY KEY, -- Local user identifier
+ peer_id integer REFERENCES peers NOT NULL, -- Peer identifier
+ peer_person_id integer NOT NULL, -- Foreign user identifier at peer
+ UNIQUE (peer_id, peer_person_id) -- The same foreign user should not be cached twice
+) WITH OIDS;
+CREATE INDEX peer_person_peer_id_idx ON peer_person (peer_id);
+
+CREATE VIEW peer_persons AS
+SELECT peer_id,
+array_accum(person_id) AS person_ids,
+array_accum(peer_person_id) AS peer_person_ids
+FROM peer_person
+GROUP BY peer_id;
+
+CREATE TABLE peer_key (
+ key_id integer REFERENCES keys PRIMARY KEY, -- Local key identifier
+ peer_id integer REFERENCES peers NOT NULL, -- Peer identifier
+ peer_key_id integer NOT NULL, -- Foreign key identifier at peer
+ UNIQUE (peer_id, peer_key_id) -- The same foreign key should not be cached twice
+) WITH OIDS;
+CREATE INDEX peer_key_peer_id_idx ON peer_key (peer_id);
+
+CREATE VIEW peer_keys AS
+SELECT peer_id,
+array_accum(key_id) AS key_ids,
+array_accum(peer_key_id) AS peer_key_ids
+FROM peer_key
+GROUP BY peer_id;
+
+CREATE TABLE peer_node (
+ node_id integer REFERENCES nodes PRIMARY KEY, -- Local node identifier
+ peer_id integer REFERENCES peers NOT NULL, -- Peer identifier
+ peer_node_id integer NOT NULL, -- Foreign node identifier
+ UNIQUE (peer_id, peer_node_id) -- The same foreign node should not be cached twice
+) WITH OIDS;
+CREATE INDEX peer_node_peer_id_idx ON peer_node (peer_id);
+
+CREATE VIEW peer_nodes AS
+SELECT peer_id,
+array_accum(node_id) AS node_ids,
+array_accum(peer_node_id) AS peer_node_ids
+FROM peer_node
+GROUP BY peer_id;
+
+CREATE TABLE peer_slice (
+ slice_id integer REFERENCES slices PRIMARY KEY, -- Local slice identifier
+ peer_id integer REFERENCES peers NOT NULL, -- Peer identifier
+ peer_slice_id integer NOT NULL, -- Slice identifier at peer
+ UNIQUE (peer_id, peer_slice_id) -- The same foreign slice should not be cached twice
+) WITH OIDS;
+CREATE INDEX peer_slice_peer_id_idx ON peer_slice (peer_id);
+
+CREATE VIEW peer_slices AS
+SELECT peer_id,
+array_accum(slice_id) AS slice_ids,
+array_accum(peer_slice_id) AS peer_slice_ids
+FROM peer_slice
+GROUP BY peer_id;
+
--------------------------------------------------------------------------------
-- Authenticated sessions
--------------------------------------------------------------------------------
-- Events
--------------------------------------------------------------------------------
-
-- Events
CREATE TABLE events (
event_id serial PRIMARY KEY, -- Event identifier
person_id integer REFERENCES persons, -- Person responsible for event, if any
node_id integer REFERENCES nodes, -- Node responsible for event, if any
fault_code integer NOT NULL DEFAULT 0, -- Did this event result in error
- call_name text Not NULL, -- Call responsible for this event
- call text NOT NULL, -- Call responsible for this event, including paramters
+ call_name text NOT NULL, -- Call responsible for this event
+ call text NOT NULL, -- Call responsible for this event, including parameters
message text, -- High level description of this event
- runtime float, -- Event run time
- time timestamp without time zone NOT NULL DEFAULT CURRENT_TIMESTAMP -- Event timestamp
+ runtime float DEFAULT 0, -- Event run time
+ time timestamp without time zone NOT NULL DEFAULT CURRENT_TIMESTAMP -- Event timestamp
) WITH OIDS;
--- Event objects
+-- Database object(s) that may have been affected by a particular event
CREATE TABLE event_object (
event_id integer REFERENCES events NOT NULL, -- Event identifier
object_id integer NOT NULL -- Object identifier
events.fault_code,
events.call_name,
events.call,
+events.message,
events.runtime,
CAST(date_part('epoch', events.time) AS bigint) AS time,
COALESCE(event_objects.object_ids, '{}') AS object_ids
persons.phone,
persons.url,
persons.bio,
-persons.peer_id,
CAST(date_part('epoch', persons.date_created) AS bigint) AS date_created,
CAST(date_part('epoch', persons.last_updated) AS bigint) AS last_updated,
+peer_person.peer_id,
+peer_person.peer_person_id,
COALESCE(person_roles.role_ids, '{}') AS role_ids,
COALESCE(person_roles.roles, '{}') AS roles,
COALESCE(person_sites.site_ids, '{}') AS site_ids,
COALESCE(person_keys.key_ids, '{}') AS key_ids,
COALESCE(person_slices.slice_ids, '{}') AS slice_ids
FROM persons
+LEFT JOIN peer_person USING (person_id)
LEFT JOIN person_roles USING (person_id)
LEFT JOIN person_sites USING (person_id)
LEFT JOIN person_keys USING (person_id)
LEFT JOIN person_slices USING (person_id);
--- Objects at each peer
-CREATE VIEW peer_sites AS
-SELECT peer_id,
-array_accum(site_id) AS site_ids
-FROM sites
-GROUP BY peer_id;
-
-CREATE VIEW peer_persons AS
-SELECT peer_id,
-array_accum(person_id) AS person_ids
-FROM persons
-GROUP BY peer_id;
-
-CREATE VIEW peer_keys AS
-SELECT peer_id,
-array_accum(key_id) AS key_ids
-FROM keys
-GROUP BY peer_id;
-
-CREATE VIEW peer_nodes AS
-SELECT peer_id,
-array_accum(node_id) AS node_ids
-FROM nodes
-GROUP BY peer_id;
-
-CREATE VIEW peer_slice_attribute_types AS
-SELECT peer_id,
-array_accum(attribute_type_id) AS attribute_type_ids
-FROM slice_attribute_types
-GROUP BY peer_id;
-
-CREATE VIEW peer_slice_attributes AS
-SELECT peer_id,
-array_accum(slice_attribute_id) AS slice_attribute_ids
-FROM slice_attribute
-GROUP BY peer_id;
-
-CREATE VIEW peer_slices AS
-SELECT peer_id,
-array_accum(slice_id) AS slice_ids
-FROM slices
-GROUP BY peer_id;
-
CREATE VIEW view_peers AS
SELECT
peers.*,
COALESCE(peer_sites.site_ids, '{}') AS site_ids,
+COALESCE(peer_sites.peer_site_ids, '{}') AS peer_site_ids,
COALESCE(peer_persons.person_ids, '{}') AS person_ids,
+COALESCE(peer_persons.peer_person_ids, '{}') AS peer_person_ids,
COALESCE(peer_keys.key_ids, '{}') AS key_ids,
+COALESCE(peer_keys.peer_key_ids, '{}') AS peer_key_ids,
COALESCE(peer_nodes.node_ids, '{}') AS node_ids,
-COALESCE(peer_slice_attribute_types.attribute_type_ids, '{}') AS attribute_type_ids,
-COALESCE(peer_slice_attributes.slice_attribute_ids, '{}') AS slice_attribute_ids,
-COALESCE(peer_slices.slice_ids, '{}') AS slice_ids
+COALESCE(peer_nodes.peer_node_ids, '{}') AS peer_node_ids,
+COALESCE(peer_slices.slice_ids, '{}') AS slice_ids,
+COALESCE(peer_slices.peer_slice_ids, '{}') AS peer_slice_ids
FROM peers
LEFT JOIN peer_sites USING (peer_id)
LEFT JOIN peer_persons USING (peer_id)
LEFT JOIN peer_keys USING (peer_id)
LEFT JOIN peer_nodes USING (peer_id)
-LEFT JOIN peer_slice_attribute_types USING (peer_id)
-LEFT JOIN peer_slice_attributes USING (peer_id)
LEFT JOIN peer_slices USING (peer_id);
CREATE VIEW view_nodes AS
nodes.node_id,
nodes.hostname,
nodes.site_id,
-nodes.peer_id,
nodes.boot_state,
nodes.deleted,
nodes.model,
nodes.key,
CAST(date_part('epoch', nodes.date_created) AS bigint) AS date_created,
CAST(date_part('epoch', nodes.last_updated) AS bigint) AS last_updated,
+peer_node.peer_id,
+peer_node.peer_node_id,
COALESCE(node_nodenetworks.nodenetwork_ids, '{}') AS nodenetwork_ids,
COALESCE(node_nodegroups.nodegroup_ids, '{}') AS nodegroup_ids,
COALESCE(node_slices.slice_ids, '{}') AS slice_ids,
COALESCE(node_conf_files.conf_file_ids, '{}') AS conf_file_ids,
node_session.session_id AS session
FROM nodes
+LEFT JOIN peer_node USING (node_id)
LEFT JOIN node_nodenetworks USING (node_id)
LEFT JOIN node_nodegroups USING (node_id)
LEFT JOIN node_slices USING (node_id)
CREATE VIEW view_nodegroups AS
SELECT
-nodegroups.nodegroup_id,
-nodegroups.name,
-nodegroups.description,
+nodegroups.*,
COALESCE(nodegroup_nodes.node_ids, '{}') AS node_ids,
COALESCE(nodegroup_conf_files.conf_file_ids, '{}') AS conf_file_ids
FROM nodegroups
CREATE VIEW view_conf_files AS
SELECT
-conf_files.conf_file_id,
-conf_files.enabled,
-conf_files.source,
-conf_files.dest,
-conf_files.file_permissions,
-conf_files.file_owner,
-conf_files.file_group,
-conf_files.preinstall_cmd,
-conf_files.postinstall_cmd,
-conf_files.error_cmd,
-conf_files.ignore_cmd_errors,
-conf_files.always_update,
+conf_files.*,
COALESCE(conf_file_nodes.node_ids, '{}') AS node_ids,
COALESCE(conf_file_nodegroups.nodegroup_ids, '{}') AS nodegroup_ids
FROM conf_files
CREATE VIEW view_pcus AS
SELECT
-pcus.pcu_id,
-pcus.site_id,
-pcus.hostname,
-pcus.ip,
-pcus.protocol,
-pcus.username,
-pcus.password,
-pcus.model,
-pcus.notes,
+pcus.*,
COALESCE(pcu_nodes.node_ids, '{}') AS node_ids,
COALESCE(pcu_nodes.ports, '{}') AS ports
FROM pcus
sites.latitude,
sites.longitude,
sites.url,
-sites.peer_id,
CAST(date_part('epoch', sites.date_created) AS bigint) AS date_created,
CAST(date_part('epoch', sites.last_updated) AS bigint) AS last_updated,
+peer_site.peer_id,
+peer_site.peer_site_id,
COALESCE(site_persons.person_ids, '{}') AS person_ids,
COALESCE(site_nodes.node_ids, '{}') AS node_ids,
COALESCE(site_addresses.address_ids, '{}') AS address_ids,
COALESCE(site_slices.slice_ids, '{}') AS slice_ids,
COALESCE(site_pcus.pcu_ids, '{}') AS pcu_ids
FROM sites
+LEFT JOIN peer_site USING (site_id)
LEFT JOIN site_persons USING (site_id)
LEFT JOIN site_nodes USING (site_id)
LEFT JOIN site_addresses USING (site_id)
CREATE VIEW view_addresses AS
SELECT
-addresses.address_id,
-addresses.line1,
-addresses.line2,
-addresses.line3,
-addresses.city,
-addresses.state,
-addresses.postalcode,
-addresses.country,
+addresses.*,
COALESCE(address_address_types.address_type_ids, '{}') AS address_type_ids,
COALESCE(address_address_types.address_types, '{}') AS address_types
FROM addresses
LEFT JOIN address_address_types USING (address_id);
+CREATE VIEW view_keys AS
+SELECT
+keys.*,
+person_key.person_id,
+peer_key.peer_id,
+peer_key.peer_key_id
+FROM keys
+LEFT JOIN person_key USING (key_id)
+LEFT JOIN peer_key USING (key_id);
+
CREATE VIEW view_slices AS
SELECT
slices.slice_id,
slices.site_id,
-slices.peer_id,
slices.name,
slices.instantiation,
slices.url,
slices.is_deleted,
CAST(date_part('epoch', slices.created) AS bigint) AS created,
CAST(date_part('epoch', slices.expires) AS bigint) AS expires,
+peer_slice.peer_id,
+peer_slice.peer_slice_id,
COALESCE(slice_nodes.node_ids, '{}') AS node_ids,
COALESCE(slice_persons.person_ids, '{}') AS person_ids,
COALESCE(slice_attributes.slice_attribute_ids, '{}') AS slice_attribute_ids
FROM slices
+LEFT JOIN peer_slice USING (slice_id)
LEFT JOIN slice_nodes USING (slice_id)
LEFT JOIN slice_persons USING (slice_id)
LEFT JOIN slice_attributes USING (slice_id);
---
CREATE VIEW view_slice_attributes AS
SELECT
slice_attribute.slice_attribute_id,
slice_attribute_types.name,
slice_attribute_types.description,
slice_attribute_types.min_role_id,
-slice_attribute.value,
-slice_attribute.peer_id
+slice_attribute.value
FROM slice_attribute
INNER JOIN slice_attribute_types USING (attribute_type_id);
(login_base, name, abbreviated_name, max_slices)
VALUES
('pl', 'PlanetLab Central', 'PLC', 100);
-
-
-