# Thierry Parmentelat <thierry.parmentelat@inria.fr>
# Copyright (C) 2010 INRIA
#
-import utils
-import os, os.path
-import datetime
+
import time
+from datetime import datetime, timedelta
-from TestKey import TestKey
-from TestUser import TestUser
+import utils
from TestNode import TestNode
+from TestUser import TestUser
+from TestBoxQemu import TestBoxQemu
from TestSsh import TestSsh
-from TestUserSfa import TestUserSfa
+
+from Completer import Completer, CompleterTask
+from TestSlice import CompleterTaskSshSlice
class TestSliceSfa:
- def __init__ (self,test_plc,sfa_slice_spec):
- self.test_plc=test_plc
- self.sfa_slice_spec=sfa_slice_spec
- self.test_ssh=TestSsh(self.test_plc.test_ssh)
+ def __init__ (self, test_auth_sfa, slice_spec):
+ self.test_auth_sfa=test_auth_sfa
+ self.slice_spec=slice_spec
# shortcuts
- self.sfa_spec=test_plc.plc_spec['sfa']
- self.piuser=self.sfa_slice_spec['piuser']
- self.regularuser=self.sfa_slice_spec['regularuser']
- self.slicename=self.sfa_slice_spec['slicename']
- self.login_base=self.sfa_slice_spec['login_base']
-
- def name(self):
- return self.sfa_slice_spec['slice_fields']['name']
-
- def rspec_style (self): return self.sfa_slice_spec['rspec_style']
-
- # the hrn for the site
- def auth_hrn (self):
- return self.test_plc.plc_spec['sfa']['SFA_REGISTRY_ROOT_AUTH']
+ self.test_plc=self.test_auth_sfa.test_plc
- # the hrn for the site
- def site_hrn (self):
- return "%s.%s"%(self.auth_hrn(),self.login_base)
-
- # something in the site (users typically)
- def qualified_hrn (self, name):
- return "%s.%s"%(self.site_hrn(),name)
-
- # the slice hrn
- def hrn(self): return self.qualified_hrn (self.slicename)
+ def hrn (self):
+ return self.test_auth_sfa.obj_hrn(self.slice_spec['name'])
+ def sfi_path (self):
+ return self.test_auth_sfa.sfi_path()
- # result name
- def resname (self,name,ext): return "%s.%s"%(name,ext)
+ # send back up to the TestAuthSfa
+ def rspec_style (self): return self.test_auth_sfa.rspec_style()
+ def sfi_pi(self,*args,**kwds): return self.test_auth_sfa.sfi_pi(*args, **kwds)
+ def sfi_user(self,*args,**kwds): return self.test_auth_sfa.sfi_user(*args, **kwds)
- def addslicefile (self): return self.resname("slice_record","xml")
- def adfile (self): return self.resname("ad","rspec")
- def reqfile (self): return self.resname("req","rspec")
- def nodefile (self): return self.resname("nodes","txt")
- # xxx this needs tweaks with more recent versions of sfa that have pgv2 as the default ?
def discover_option(self):
- if self.rspec_style()=='pg': return "-r protogeni"
+ if self.rspec_style()=='pg': return "-r GENI"
else: return "-r sfa"
- def sfi_path (self):
- return "/root/sfi/%s%s"%(self.slicename,self.rspec_style())
-
- def locate_key(self):
- for username,keyname in self.sfa_slice_spec['usernames']:
- key_spec=self.test_plc.locate_key(keyname)
- test_key=TestKey(self.test_plc,key_spec)
- publickey=test_key.publicpath()
- privatekey=test_key.privatepath()
- if os.path.isfile(publickey) and os.path.isfile(privatekey):
- found=True
- return (found,privatekey)
-
- # dir_name is local and will be pushed later on by TestPlc
- # by default set SFI_USER to the pi, we'll overload this
- # on the command line when needed
- def sfi_configure (self,dir_name):
- plc_spec=self.test_plc.plc_spec
- sfa_spec=self.sfa_spec
- sfa_slice_spec=self.sfa_slice_spec
- keys=plc_spec['keys']
- for (contents,name) in [ (keys[0]['private'], self.piuser+'.pkey'),
- (keys[0]['key_fields']['key'], self.piuser+'.pub'),
- (keys[1]['private'], self.regularuser+'.pkey'),
- (keys[0]['key_fields']['key'], self.regularuser+'.pub'),
- ]:
- file_name=os.path.join(dir_name,self.qualified_hrn(name))
- fileconf=open(file_name,'w')
- fileconf.write (contents)
- fileconf.close()
- utils.header ("(Over)wrote %s"%file_name)
- #
- file_name=dir_name + os.sep + 'sfi_config'
- fileconf=open(file_name,'w')
- SFI_AUTH="%s"%(self.site_hrn())
- fileconf.write ("SFI_AUTH='%s'"%SFI_AUTH)
- fileconf.write('\n')
- SFI_USER=SFI_AUTH + '.' + self.piuser
- fileconf.write ("SFI_USER='%s'"%SFI_USER)
- fileconf.write('\n')
- SFI_REGISTRY='http://' + sfa_spec['SFA_REGISTRY_HOST'] + ':12345/'
- fileconf.write ("SFI_REGISTRY='%s'"%SFI_REGISTRY)
- fileconf.write('\n')
- SFI_SM='http://' + sfa_spec['SFA_SM_HOST'] + ':12347/'
- fileconf.write ("SFI_SM='%s'"%SFI_SM)
- fileconf.write('\n')
- fileconf.close()
- utils.header ("(Over)wrote %s"%file_name)
- #
- file_name=dir_name + os.sep + self.addslicefile()
- fileconf=open(file_name,'w')
- fileconf.write(sfa_slice_spec['slice_record'])
- fileconf.write('\n')
- utils.header ("(Over)wrote %s"%file_name)
- fileconf.close()
-
- # using sfaadmin to bootstrap
- def sfa_add_site (self, options):
- "bootstrap a site using sfaadmin"
- command="sfaadmin reg register -t authority -x %s"%self.site_hrn()
- return self.test_plc.run_in_guest(command)==0
-
- def sfa_add_pi (self, options):
- "bootstrap a PI user for that site"
- pi_hrn=self.qualified_hrn(self.piuser)
- pi_mail=self.sfa_slice_spec['pimail']
- # as installed by sfi_config
- pi_key=os.path.join(self.sfi_path(),self.qualified_hrn(self.piuser+'.pub'))
- command="sfaadmin reg register -t user -x %s --email %s --key %s"%(pi_hrn,pi_mail,pi_key)
- if self.test_plc.run_in_guest(command)!=0: return False
- command="sfaadmin reg update -t authority -x %s --pi %s"%(self.site_hrn(),pi_hrn)
- return self.test_plc.run_in_guest(command)==0
-
- # user management
- def sfa_add_user (self, options):
- "add a regular user using sfi.py add"
- return TestUserSfa(self.test_plc, self.sfa_slice_spec, self).add_user()
- def sfa_update_user (self, options):
- "update a user record using sfi.py update"
- return TestUserSfa(self.test_plc, self.sfa_slice_spec, self).update_user()
- def sfa_delete_user (self, options):
- "run sfi.py delete"
- return TestUserSfa(self.test_plc, self.sfa_slice_spec, self).delete_user()
-
- # run as pi
- def sfi_pi (self, command):
- return "sfi.py -d %s -u %s %s"%(self.sfi_path(),self.qualified_hrn(self.piuser), command,)
- # the sfi.py command line option to run as a regular user
- def sfi_user (self, command):
- return "sfi.py -d %s -u %s %s"%(self.sfi_path(),self.qualified_hrn(self.regularuser), command,)
-
# those are step names exposed as methods of TestPlc, hence the _sfa
- def sfi_list (self, options):
- "run (as regular user) sfi list (on Registry)"
- return \
- self.test_plc.run_in_guest(self.sfi_user("list -r %s"%self.auth_hrn()))==0 and \
- self.test_plc.run_in_guest(self.sfi_user("list %s"%(self.site_hrn())))==0
-
- def sfi_show (self, options):
- "run (as regular user) sfi show (on Registry)"
- return \
- self.test_plc.run_in_guest(self.sfi_user("show %s"%(self.site_hrn())))==0
-
- def sfi_slices (self, options):
- "run (as regular user) sfi slices (on SM)"
- return \
- self.test_plc.run_in_guest(self.sfi_user("slices"))==0
-
# needs to be run as pi
def sfa_add_slice(self,options):
- "run sfi.py add (on Registry) from slice.xml"
- return self.test_plc.run_in_guest(self.sfi_pi("add %s"%(self.addslicefile())))==0
-
+ "run sfi add (on Registry)"
+ sfi_command="add"
+ sfi_command += " --type slice"
+ sfi_command += " --xrn %s"%self.hrn()
+ for opt in self.slice_spec['add_options']:
+ sfi_command += " %s"%(opt)
+ return self.test_plc.run_in_guest(self.sfi_pi(sfi_command))==0
+
+ def sfa_renew_slice(self, options):
+ "run sfi renew (on Aggregates)"
+ too_late = datetime.now() + timedelta(weeks=52)
+ one_month = datetime.now() + timedelta(weeks=4)
+ # we expect this to fail on too long term attemps, but to succeed otherwise
+ overall=True
+ for ( renew_until, expected) in [ (too_late, False), (one_month, True) ] :
+ sfi_command="renew"
+ sfi_command += " %s"%self.hrn()
+ sfi_command += " %s"%renew_until.strftime("%Y-%m-%d")
+ succeeded = self.test_plc.run_in_guest(self.sfi_user(sfi_command))==0
+ if succeeded!=expected:
+ utils.header ("Expecting success=%s, got %s"%(expected,succeeded))
+ # however it turns out sfi renew always returns fine....
+ #overall=False
+ # so for helping manual checks:
+ sfi_command="show -k hrn -k expires %s"%self.hrn()
+ self.test_plc.run_in_guest(self.sfi_user(sfi_command))
+ return overall
+
+ # helper - filename to store a given result
+ def _resname (self,name,ext): return "%s.%s"%(name,ext)
+ def adfile (self): return self._resname("ad","rspec")
+ def reqfile (self): return self._resname("req","rspec")
+ def nodefile (self): return self._resname("nodes","txt")
+
# run as user
def sfa_discover(self,options):
"discover resources into resouces_in.rspec"
# run sfi create as a regular user
def sfa_create_slice(self,options):
- "run sfi.py create (on SM) - 1st time"
+ "run sfi create (on SM) - 1st time"
commands=[
"sfiListNodes.py -i %s/%s -o %s/%s"%(self.sfi_path(),self.adfile(),self.sfi_path(),self.nodefile()),
"sfiAddSliver.py -i %s/%s -n %s/%s -o %s/%s"%\
(self.sfi_path(),self.adfile(),self.sfi_path(),self.nodefile(),self.sfi_path(),self.reqfile()),
- self.sfi_user("create %s %s"%(self.hrn(),self.reqfile())),
+ self.sfi_user("allocate %s %s"%(self.hrn(),self.reqfile())),
+ self.sfi_user("provision %s"%(self.hrn())),
]
for command in commands:
if self.test_plc.run_in_guest(command)!=0: return False
return True
+ def plc_name (self):
+ return "%s_%s"%(self.test_auth_sfa.login_base,self.slice_spec['name'])
+
# all local nodes in slice ?
def sfa_check_slice_plc (self,options):
"check sfa_create_slice at the plcs - all local nodes should be in slice"
- slice_fields = self.sfa_slice_spec['slice_fields']
- slice_name = slice_fields['name']
- slice=self.test_plc.apiserver.GetSlices(self.test_plc.auth_root(), slice_name)[0]
+ slice=self.test_plc.apiserver.GetSlices(self.test_plc.auth_root(), self.plc_name())[0]
nodes=self.test_plc.apiserver.GetNodes(self.test_plc.auth_root(), {'peer_id':None})
result=True
for node in nodes:
# actually the same for now
def sfa_update_slice(self,options):
- "run sfi.py create (on SM) on existing object"
+ "run sfi create (on SM) on existing object"
return self.sfa_create_slice(options)
# run as pi
def sfa_delete_slice(self,options):
- "run sfi.py delete"
+ "run sfi delete"
self.test_plc.run_in_guest(self.sfi_pi("delete %s"%(self.hrn(),)))
return self.test_plc.run_in_guest(self.sfi_pi("remove -t slice %s"%(self.hrn(),)))==0
+ def locate_private_key(self):
+ return self.test_plc.locate_private_key_from_key_names ( [ self.slice_spec['key_name'] ] )
+
# check the resulting sliver
- def ssh_slice_sfa(self,options,timeout_minutes=40,silent_minutes=30,period=15):
+ def ssh_slice_sfa(self,options,timeout_minutes=40,silent_minutes=0,period_seconds=15):
"tries to ssh-enter the SFA slice"
- timeout = datetime.datetime.now()+datetime.timedelta(minutes=timeout_minutes)
- graceout = datetime.datetime.now()+datetime.timedelta(minutes=silent_minutes)
+ timeout = timedelta(minutes=timeout_minutes)
+ graceout = timedelta(minutes=silent_minutes)
+ period = timedelta(seconds=period_seconds)
# locate a key
- (found,remote_privatekey)=self.locate_key()
- if not found :
+ private_key=self.locate_private_key()
+ if not private_key :
utils.header("WARNING: Cannot find a valid key for slice %s"%self.name())
return False
-
- # convert nodenames to real hostnames
- sfa_slice_spec = self.sfa_slice_spec
- restarted=[]
- tocheck=[]
- for nodename in sfa_slice_spec['nodenames']:
+ command="echo hostname ; hostname; echo id; id; echo uname -a ; uname -a"
+
+ tasks=[]
+ slicename=self.plc_name()
+ dry_run = getattr(options,'dry_run',False)
+ for nodename in self.slice_spec['nodenames']:
(site_spec,node_spec) = self.test_plc.locate_node(nodename)
- tocheck.append(node_spec['node_fields']['hostname'])
-
- utils.header("checking ssh access into slice %s on nodes %r"%(self.name(),tocheck))
- utils.header("max timeout is %d minutes, silent for %d minutes (period is %s)"%\
- (timeout_minutes,silent_minutes,period))
- while tocheck:
- for hostname in tocheck:
- (site_spec,node_spec) = self.test_plc.locate_hostname(hostname)
- date_test_ssh = TestSsh (hostname,key=remote_privatekey,username=self.name())
- command = date_test_ssh.actual_command("echo hostname ; hostname; echo id; id; echo uname -a ; uname -a")
- date = utils.system (command, silent=datetime.datetime.now() < graceout)
- if date==0:
- utils.header("Successfuly entered slice %s on %s"%(self.name(),hostname))
- tocheck.remove(hostname)
- else:
- # real nodes will have been checked once in case they're up - skip if not
- if TestNode.is_real_model(node_spec['node_fields']['model']):
- utils.header("WARNING : Checking slice %s on real node %s skipped"%(self.name(),hostname))
- tocheck.remove(hostname)
- # nm restart after first failure, if requested
- if options.forcenm and hostname not in restarted:
- utils.header ("forcenm option : restarting nm on %s"%hostname)
- restart_test_ssh=TestSsh(hostname,key="keys/key1.rsa")
- access=restart_test_ssh.actual_command('service nm restart')
- if (access==0):
- utils.header('nm restarted on %s'%hostname)
- else:
- utils.header('Failed to restart nm on %s'%(hostname))
- restarted.append(hostname)
- if not tocheck:
- # we're done
- return True
- if datetime.datetime.now() > timeout:
- for hostname in tocheck:
- utils.header("FAILURE to ssh into %s@%s"%(self.name(),hostname))
- return False
- # wait for the period
- time.sleep (period)
- # for an empty slice
- return True
-
+ tasks.append( CompleterTaskSshSlice(self.test_plc,node_spec['node_fields']['hostname'],
+ slicename,private_key,command,expected=True,dry_run=dry_run))
+ return Completer (tasks).run (timeout, graceout, period)