# Thierry Parmentelat <thierry.parmentelat@inria.fr>
# Copyright (C) 2010 INRIA
#
-import os, os.path
-import datetime
-import time
import sys
+import time
+import os, os.path
import traceback
-from types import StringTypes
import socket
+from datetime import datetime, timedelta
+from types import StringTypes
import utils
+from Completer import Completer, CompleterTask
from TestSite import TestSite
-from TestNode import TestNode
+from TestNode import TestNode, CompleterTaskNodeSsh
from TestUser import TestUser
from TestKey import TestKey
from TestSlice import TestSlice
from TestSliver import TestSliver
-from TestBox import TestBox
+from TestBoxQemu import TestBoxQemu
from TestSsh import TestSsh
from TestApiserver import TestApiserver
-from TestSliceSfa import TestSliceSfa
-from TestUserSfa import TestUserSfa
+from TestAuthSfa import TestAuthSfa
+from PlcapiUrlScanner import PlcapiUrlScanner
+
+has_sfa_cache_filename="sfa-cache"
# step methods must take (self) and return a boolean (options is a member of the class)
return actual
def node_mapper (method):
- def actual(self):
+ def map_on_nodes(self,*args, **kwds):
overall=True
node_method = TestNode.__dict__[method.__name__]
- for site_spec in self.plc_spec['sites']:
- test_site = TestSite (self,site_spec)
- for node_spec in site_spec['nodes']:
- test_node = TestNode (self,test_site,node_spec)
- if not node_method(test_node): overall=False
+ for test_node in self.all_nodes():
+ if not node_method(test_node, *args, **kwds): overall=False
return overall
+ # maintain __name__ for ignore_result
+ map_on_nodes.__name__=method.__name__
# restore the doc text
- actual.__doc__=method.__doc__
- return actual
+ map_on_nodes.__doc__=TestNode.__dict__[method.__name__].__doc__
+ return map_on_nodes
def slice_mapper (method):
- def actual(self):
+ def map_on_slices(self):
overall=True
slice_method = TestSlice.__dict__[method.__name__]
for slice_spec in self.plc_spec['slices']:
test_slice=TestSlice(self,test_site,slice_spec)
if not slice_method(test_slice,self.options): overall=False
return overall
+ # maintain __name__ for ignore_result
+ map_on_slices.__name__=method.__name__
# restore the doc text
- actual.__doc__=method.__doc__
- return actual
-
-def slice_sfa_mapper (method):
+ map_on_slices.__doc__=TestSlice.__dict__[method.__name__].__doc__
+ return map_on_slices
+
+# run a step but return True so that we can go on
+def ignore_result (method):
+ def ignoring (self):
+ # ssh_slice_ignore->ssh_slice
+ ref_name=method.__name__.replace('_ignore','').replace('force_','')
+ ref_method=TestPlc.__dict__[ref_name]
+ result=ref_method(self)
+ print "Actual (but ignored) result for %(ref_name)s is %(result)s"%locals()
+ return Ignored (result)
+ name=method.__name__.replace('_ignore','').replace('force_','')
+ ignoring.__name__=name
+ ignoring.__doc__="ignored version of " + name
+ return ignoring
+
+# a variant that expects the TestSlice method to return a list of CompleterTasks that
+# are then merged into a single Completer run to avoid wating for all the slices
+# esp. useful when a test fails of course
+# because we need to pass arguments we use a class instead..
+class slice_mapper__tasks (object):
+ # could not get this to work with named arguments
+ def __init__ (self,timeout_minutes,silent_minutes,period_seconds):
+ self.timeout=timedelta(minutes=timeout_minutes)
+ self.silent=timedelta(minutes=silent_minutes)
+ self.period=timedelta(seconds=period_seconds)
+ def __call__ (self, method):
+ decorator_self=self
+ # compute augmented method name
+ method_name = method.__name__ + "__tasks"
+ # locate in TestSlice
+ slice_method = TestSlice.__dict__[ method_name ]
+ def wrappee(self):
+ tasks=[]
+ for slice_spec in self.plc_spec['slices']:
+ site_spec = self.locate_site (slice_spec['sitename'])
+ test_site = TestSite(self,site_spec)
+ test_slice=TestSlice(self,test_site,slice_spec)
+ tasks += slice_method (test_slice, self.options)
+ return Completer (tasks).run (decorator_self.timeout, decorator_self.silent, decorator_self.period)
+ # restore the doc text from the TestSlice method even if a bit odd
+ wrappee.__name__ = method.__name__
+ wrappee.__doc__ = slice_method.__doc__
+ return wrappee
+
+def auth_sfa_mapper (method):
def actual(self):
overall=True
- slice_method = TestSliceSfa.__dict__[method.__name__]
- for slice_spec in self.plc_spec['sfa']['sfa_slice_specs']:
- site_spec = self.locate_site (slice_spec['sitename'])
- test_site = TestSite(self,site_spec)
- test_slice=TestSliceSfa(self,test_site,slice_spec)
- if not slice_method(test_slice,self.options): overall=False
+ auth_method = TestAuthSfa.__dict__[method.__name__]
+ for auth_spec in self.plc_spec['sfa']['auth_sfa_specs']:
+ test_auth=TestAuthSfa(self,auth_spec)
+ if not auth_method(test_auth,self.options): overall=False
return overall
# restore the doc text
- actual.__doc__=method.__doc__
+ actual.__doc__=TestAuthSfa.__dict__[method.__name__].__doc__
return actual
+class Ignored:
+ def __init__ (self,result):
+ self.result=result
+
SEP='<sep>'
SEPSFA='<sep_sfa>'
class TestPlc:
default_steps = [
- 'display', 'resources_pre', SEP,
- 'delete_vs','create_vs','install', 'configure', 'start', SEP,
- 'fetch_keys', 'store_keys', 'clear_known_hosts', SEP,
+ 'show', SEP,
+ 'plcvm_delete','plcvm_timestamp','plcvm_create', SEP,
+ 'plc_install', 'plc_configure', 'plc_start', SEP,
+ 'keys_fetch', 'keys_store', 'keys_clear_known_hosts', SEP,
+ 'plcapi_urls','speed_up_slices', SEP,
'initscripts', 'sites', 'nodes', 'slices', 'nodegroups', 'leases', SEP,
- 'reinstall_node', 'init_node','bootcd', 'configure_qemu', 'export_qemu', 'kill_all_qemus', 'start_node', SEP,
- 'install_sfa', 'configure_sfa', 'cross_configure_sfa', 'import_sfa', 'start_sfa', SEPSFA,
- 'configure_sfi@1', 'add_user_sfa@1', 'add_sfa@1', 'create_sfa@1', SEPSFA,
- 'update_user_sfa@1', 'update_sfa@1', 'view_sfa@1', SEPSFA,
- # better use of time: do this now that the nodes are taking off
- 'plcsh_stress_test@1', SEP,
- 'nodes_ssh_debug', 'nodes_ssh_boot', 'check_slice', 'check_initscripts', SEPSFA,
- 'check_slice_sfa@1', 'delete_slice_sfa@1', 'delete_user_sfa@1', SEPSFA,
- 'check_tcp', 'check_hooks@1', SEP,
- 'force_gather_logs', 'force_resources_post', SEP,
+# slices created under plcsh interactively seem to be fine but these ones don't have the tags
+# keep this our of the way for now
+ 'check_vsys_defaults_ignore', SEP,
+# run this first off so it's easier to re-run on another qemu box
+ 'qemu_kill_mine', SEP,
+ 'nodestate_reinstall', 'qemu_local_init','bootcd', 'qemu_local_config', SEP,
+ 'qemu_clean_mine', 'qemu_export', 'qemu_start', 'qemu_timestamp', SEP,
+ 'sfa_install_all', 'sfa_configure', 'cross_sfa_configure', 'sfa_start', 'sfa_import', SEPSFA,
+ 'sfi_configure@1', 'sfa_register_site@1','sfa_register_pi@1', SEPSFA,
+ 'sfa_register_user@1', 'sfa_update_user@1', 'sfa_register_slice@1', 'sfa_renew_slice@1', SEPSFA,
+ 'sfa_remove_user_from_slice@1','sfi_show_slice_researchers@1',
+ 'sfa_insert_user_in_slice@1','sfi_show_slice_researchers@1', SEPSFA,
+ 'sfa_discover@1', 'sfa_create_slice@1', 'sfa_check_slice_plc@1', 'sfa_update_slice@1', SEPSFA,
+ 'sfi_list@1', 'sfi_show_site@1', 'sfa_utest@1', SEPSFA,
+ # we used to run plcsh_stress_test, and then ssh_node_debug and ssh_node_boot
+ # but as the stress test might take a while, we sometimes missed the debug mode..
+ 'probe_kvm_iptables',
+ 'ping_node', 'ssh_node_debug', 'plcsh_stress_test@1', SEP,
+ 'ssh_node_boot', 'node_bmlogs', 'ssh_slice', 'ssh_slice_basics', 'check_initscripts_ignore', SEP,
+ 'ssh_slice_sfa@1', 'sfa_delete_slice@1', 'sfa_delete_user@1', SEPSFA,
+ 'cross_check_tcp@1', 'check_system_slice', SEP,
+ # check slices are turned off properly
+ 'empty_slices', 'ssh_slice_off', 'slice_fs_deleted_ignore', SEP,
+ # check they are properly re-created with the same name
+ 'fill_slices', 'ssh_slice_again_ignore', SEP,
+ 'gather_logs_force', SEP,
]
other_steps = [
- 'show_boxes', 'resources_list','resources_release','resources_release_plc','resources_release_qemu',SEP,
- 'stop', 'vs_start', SEP,
- 'clean_initscripts', 'clean_nodegroups','clean_all_sites', SEP,
- 'clean_sites', 'clean_nodes', 'clean_slices', 'clean_keys', SEP,
- 'clean_leases', 'list_leases', SEP,
- 'populate' , SEP,
- 'list_all_qemus', 'list_qemus', 'kill_qemus', SEP,
- 'plcclean_sfa', 'dbclean_sfa', 'stop_sfa','uninstall_sfa', 'clean_sfi', SEP,
- 'db_dump' , 'db_restore', SEP,
- 'standby_1 through 20',SEP,
+ 'export', 'show_boxes', SEP,
+ 'check_hooks', 'plc_stop', 'plcvm_start', 'plcvm_stop', SEP,
+ 'delete_initscripts', 'delete_nodegroups','delete_all_sites', SEP,
+ 'delete_sites', 'delete_nodes', 'delete_slices', 'keys_clean', SEP,
+ 'delete_leases', 'list_leases', SEP,
+ 'populate', SEP,
+ 'nodestate_show','nodestate_safeboot','nodestate_boot', SEP,
+ 'qemu_list_all', 'qemu_list_mine', 'qemu_kill_all', SEP,
+ 'sfa_install_core', 'sfa_install_sfatables', 'sfa_install_plc', 'sfa_install_client', SEPSFA,
+ 'sfa_plcclean', 'sfa_dbclean', 'sfa_stop','sfa_uninstall', 'sfi_clean', SEPSFA,
+ 'plc_db_dump' , 'plc_db_restore', SEP,
+ 'check_netflow','check_drl', SEP,
+ 'debug_nodemanager', 'slice_fs_present', SEP,
+ 'standby_1_through_20','yes','no',SEP,
]
@staticmethod
return step != SEP and step != SEPSFA
# turn off the sfa-related steps when build has skipped SFA
- # this is originally for centos5 as recent SFAs won't build on this platformb
+ # this was originally for centos5 but is still valid
+ # for up to f12 as recent SFAs with sqlalchemy won't build before f14
@staticmethod
- def check_whether_build_has_sfa (rpms_url):
+ def _has_sfa_cached (rpms_url):
+ if os.path.isfile(has_sfa_cache_filename):
+ cached=file(has_sfa_cache_filename).read()=="yes"
+ utils.header("build provides SFA (cached):%s"%cached)
+ return cached
# warning, we're now building 'sface' so let's be a bit more picky
- retcod=os.system ("curl --silent %s/ | grep -q sfa-"%rpms_url)
# full builds are expected to return with 0 here
- if retcod!=0:
+ utils.header ("Checking if build provides SFA package...")
+ retcod=os.system ("curl --silent %s/ | grep -q sfa-"%rpms_url)==0
+ encoded='yes' if retcod else 'no'
+ file(has_sfa_cache_filename,'w').write(encoded)
+ return retcod
+
+ @staticmethod
+ def check_whether_build_has_sfa (rpms_url):
+ has_sfa=TestPlc._has_sfa_cached(rpms_url)
+ if has_sfa:
+ utils.header("build does provide SFA")
+ else:
# move all steps containing 'sfa' from default_steps to other_steps
- sfa_steps= [ step for step in TestPlc.default_steps if step.find('sfa')>=0 ]
+ utils.header("SFA package not found - removing steps with sfa or sfi")
+ sfa_steps= [ step for step in TestPlc.default_steps if step.find('sfa')>=0 or step.find("sfi")>=0 ]
TestPlc.other_steps += sfa_steps
for step in sfa_steps: TestPlc.default_steps.remove(step)
def __init__ (self,plc_spec,options):
self.plc_spec=plc_spec
self.options=options
- self.test_ssh=TestSsh(self.plc_spec['hostname'],self.options.buildname)
- try:
- self.vserverip=plc_spec['vserverip']
- self.vservername=plc_spec['vservername']
- self.url="https://%s:443/PLCAPI/"%plc_spec['vserverip']
- self.vserver=True
- except:
- raise Exception,'chroot-based myplc testing is deprecated'
+ self.test_ssh=TestSsh(self.plc_spec['host_box'],self.options.buildname)
+ self.vserverip=plc_spec['vserverip']
+ self.vservername=plc_spec['vservername']
+ self.url="https://%s:443/PLCAPI/"%plc_spec['vserverip']
self.apiserver=TestApiserver(self.url,options.dry_run)
+ (self.ssh_node_boot_timeout,self.ssh_node_boot_silent)=plc_spec['ssh_node_boot_timers']
+ (self.ssh_node_debug_timeout,self.ssh_node_debug_silent)=plc_spec['ssh_node_debug_timers']
+ def has_addresses_api (self):
+ return self.apiserver.has_method('AddIpAddress')
+
def name(self):
name=self.plc_spec['name']
return "%s.%s"%(name,self.vservername)
def hostname(self):
- return self.plc_spec['hostname']
+ return self.plc_spec['host_box']
def is_local (self):
return self.test_ssh.is_local()
def connect (self):
pass
- def actual_command_in_guest (self,command):
- return self.test_ssh.actual_command(self.host_to_guest(command))
+ def actual_command_in_guest (self,command, backslash=False):
+ raw1=self.host_to_guest(command)
+ raw2=self.test_ssh.actual_command(raw1,dry_run=self.options.dry_run, backslash=backslash)
+ return raw2
def start_guest (self):
- return utils.system(self.test_ssh.actual_command(self.start_guest_in_host()))
+ return utils.system(self.test_ssh.actual_command(self.start_guest_in_host(),dry_run=self.options.dry_run))
- def run_in_guest (self,command):
- return utils.system(self.actual_command_in_guest(command))
+ def stop_guest (self):
+ return utils.system(self.test_ssh.actual_command(self.stop_guest_in_host(),dry_run=self.options.dry_run))
+
+ def run_in_guest (self,command,backslash=False):
+ raw=self.actual_command_in_guest(command,backslash)
+ return utils.system(raw)
def run_in_host (self,command):
- return self.test_ssh.run_in_buildname(command)
+ return self.test_ssh.run_in_buildname(command, dry_run=self.options.dry_run)
- #command gets run in the vserver
+ # backslashing turned out so awful at some point that I've turned off auto-backslashing
+ # see e.g. plc_start esp. the version for f14
+ #command gets run in the plc's vm
def host_to_guest(self,command):
- return "vserver %s exec %s"%(self.vservername,command)
+ # f14 still needs some extra help
+ if self.options.fcdistro == 'f14':
+ raw="virsh -c lxc:/// lxc-enter-namespace %s -- /usr/bin/env PATH=/bin:/sbin:/usr/bin:/usr/sbin %s" %(self.vservername,command)
+ else:
+ raw="virsh -c lxc:/// lxc-enter-namespace %s -- /usr/bin/env %s" %(self.vservername,command)
+ return raw
- #command gets run in the vserver
+ # this /vservers thing is legacy...
+ def vm_root_in_host(self):
+ return "/vservers/%s/"%(self.vservername)
+
+ def vm_timestamp_path (self):
+ return "/vservers/%s/%s.timestamp"%(self.vservername,self.vservername)
+
+ #start/stop the vserver
def start_guest_in_host(self):
- return "vserver %s start"%(self.vservername)
+ return "virsh -c lxc:/// start %s"%(self.vservername)
+
+ def stop_guest_in_host(self):
+ return "virsh -c lxc:/// destroy %s"%(self.vservername)
# xxx quick n dirty
def run_in_guest_piped (self,local,remote):
return utils.system(local+" | "+self.test_ssh.actual_command(self.host_to_guest(remote),keep_stdin=True))
+ def yum_check_installed (self, rpms):
+ if isinstance (rpms, list):
+ rpms=" ".join(rpms)
+ return self.run_in_guest("rpm -q %s"%rpms)==0
+
+ # does a yum install in the vs, ignore yum retcod, check with rpm
+ def yum_install (self, rpms):
+ if isinstance (rpms, list):
+ rpms=" ".join(rpms)
+ self.run_in_guest("yum -y install %s"%rpms)
+ # yum-complete-transaction comes with yum-utils, that is in vtest.pkgs
+ self.run_in_guest("yum-complete-transaction -y")
+ return self.yum_check_installed (rpms)
+
def auth_root (self):
- return {'Username':self.plc_spec['PLC_ROOT_USER'],
+ return {'Username':self.plc_spec['settings']['PLC_ROOT_USER'],
'AuthMethod':'password',
- 'AuthString':self.plc_spec['PLC_ROOT_PASSWORD'],
+ 'AuthString':self.plc_spec['settings']['PLC_ROOT_PASSWORD'],
'Role' : self.plc_spec['role']
}
def locate_site (self,sitename):
return (site,node)
raise Exception,"Cannot locate hostname %s"%hostname
- def locate_key (self,keyname):
+ def locate_key (self,key_name):
for key in self.plc_spec['keys']:
- if key['name'] == keyname:
+ if key['key_name'] == key_name:
return key
- raise Exception,"Cannot locate key %s"%keyname
+ raise Exception,"Cannot locate key %s"%key_name
+
+ def locate_private_key_from_key_names (self, key_names):
+ # locate the first avail. key
+ found=False
+ for key_name in key_names:
+ key_spec=self.locate_key(key_name)
+ test_key=TestKey(self,key_spec)
+ publickey=test_key.publicpath()
+ privatekey=test_key.privatepath()
+ if os.path.isfile(publickey) and os.path.isfile(privatekey):
+ found=True
+ if found: return privatekey
+ else: return None
def locate_slice (self, slicename):
for slice in self.plc_spec['slices']:
return self.locate_sliver_obj(nodename,slicename)
# all different hostboxes used in this plc
- def gather_hostBoxes(self):
+ def get_BoxNodes(self):
# maps on sites and nodes, return [ (host_box,test_node) ]
tuples=[]
for site_spec in self.plc_spec['sites']:
# a step for checking this stuff
def show_boxes (self):
'print summary of nodes location'
- for (box,nodes) in self.gather_hostBoxes().iteritems():
+ for (box,nodes) in self.get_BoxNodes().iteritems():
print box,":"," + ".join( [ node.name() for node in nodes ] )
return True
# make this a valid step
- def kill_all_qemus(self):
+ def qemu_kill_all(self):
'kill all qemu instances on the qemu boxes involved by this setup'
# this is the brute force version, kill all qemus on that host box
- for (box,nodes) in self.gather_hostBoxes().iteritems():
+ for (box,nodes) in self.get_BoxNodes().iteritems():
# pass the first nodename, as we don't push template-qemu on testboxes
nodedir=nodes[0].nodedir()
- TestBox(box,self.options.buildname).kill_all_qemus(nodedir)
+ TestBoxQemu(box,self.options.buildname).qemu_kill_all(nodedir)
return True
# make this a valid step
- def list_all_qemus(self):
+ def qemu_list_all(self):
'list all qemu instances on the qemu boxes involved by this setup'
- for (box,nodes) in self.gather_hostBoxes().iteritems():
+ for (box,nodes) in self.get_BoxNodes().iteritems():
# this is the brute force version, kill all qemus on that host box
- TestBox(box,self.options.buildname).list_all_qemus()
+ TestBoxQemu(box,self.options.buildname).qemu_list_all()
return True
- # kill only the right qemus
- def list_qemus(self):
+ # kill only the qemus related to this test
+ def qemu_list_mine(self):
'list qemu instances for our nodes'
- for (box,nodes) in self.gather_hostBoxes().iteritems():
+ for (box,nodes) in self.get_BoxNodes().iteritems():
# the fine-grain version
for node in nodes:
node.list_qemu()
return True
+ # kill only the qemus related to this test
+ def qemu_clean_mine(self):
+ 'cleanup (rm -rf) qemu instances for our nodes'
+ for (box,nodes) in self.get_BoxNodes().iteritems():
+ # the fine-grain version
+ for node in nodes:
+ node.qemu_clean()
+ return True
+
# kill only the right qemus
- def kill_qemus(self):
+ def qemu_kill_mine(self):
'kill the qemu instances for our nodes'
- for (box,nodes) in self.gather_hostBoxes().iteritems():
+ for (box,nodes) in self.get_BoxNodes().iteritems():
# the fine-grain version
for node in nodes:
node.kill_qemu()
return True
#################### display config
- def display (self):
+ def show (self):
"show test configuration after localization"
- self.display_pass (1)
- self.display_pass (2)
+ self.show_pass (1)
+ self.show_pass (2)
+ return True
+
+ # uggly hack to make sure 'run export' only reports about the 1st plc
+ # to avoid confusion - also we use 'inri_slice1' in various aliases..
+ exported_id=1
+ def export (self):
+ "print cut'n paste-able stuff to export env variables to your shell"
+ # guess local domain from hostname
+ if TestPlc.exported_id>1:
+ print "export GUESTHOSTNAME%d=%s"%(TestPlc.exported_id,self.plc_spec['vservername'])
+ return True
+ TestPlc.exported_id+=1
+ domain=socket.gethostname().split('.',1)[1]
+ fqdn="%s.%s"%(self.plc_spec['host_box'],domain)
+ print "export BUILD=%s"%self.options.buildname
+ print "export PLCHOSTLXC=%s"%fqdn
+ print "export GUESTNAME=%s"%self.plc_spec['vservername']
+ vplcname=self.plc_spec['vservername'].split('-')[-1]
+ print "export GUESTHOSTNAME=%s.%s"%(vplcname,domain)
+ # find hostname of first node
+ (hostname,qemubox) = self.all_node_infos()[0]
+ print "export KVMHOST=%s.%s"%(qemubox,domain)
+ print "export NODE=%s"%(hostname)
return True
# entry point
always_display_keys=['PLC_WWW_HOST','nodes','sites',]
- def display_pass (self,passno):
+ def show_pass (self,passno):
for (key,val) in self.plc_spec.iteritems():
if not self.options.verbose and key not in TestPlc.always_display_keys: continue
if passno == 2:
for key in val:
self.display_key_spec (key)
elif passno == 1:
- if key not in ['sites','initscripts','slices','keys', 'sfa']:
+ if key not in ['sites','initscripts','slices','keys']:
print '+ ',key,':',val
def display_site_spec (self,site):
print '+ ======== initscript',initscript['initscript_fields']['name']
def display_key_spec (self,key):
- print '+ ======== key',key['name']
+ print '+ ======== key',key['key_name']
def display_slice_spec (self,slice):
print '+ ======== slice',slice['slice_fields']['name']
@staticmethod
def display_mapping_plc (plc_spec):
print '+ MyPLC',plc_spec['name']
- print '+\tvserver address = root@%s:/vservers/%s'%(plc_spec['hostname'],plc_spec['vservername'])
- print '+\tIP = %s/%s'%(plc_spec['PLC_API_HOST'],plc_spec['vserverip'])
+ # WARNING this would not be right for lxc-based PLC's - should be harmless though
+ print '+\tvserver address = root@%s:/vservers/%s'%(plc_spec['host_box'],plc_spec['vservername'])
+ print '+\tIP = %s/%s'%(plc_spec['settings']['PLC_API_HOST'],plc_spec['vserverip'])
for site_spec in plc_spec['sites']:
for node_spec in site_spec['nodes']:
TestPlc.display_mapping_node(node_spec)
print '+\tqemu box %s'%node_spec['host_box']
print '+\thostname=%s'%node_spec['node_fields']['hostname']
- def resources_pre (self):
- "run site-dependant pre-test script as defined in LocalTestResources"
- from LocalTestResources import local_resources
- return local_resources.step_pre(self)
-
- def resources_post (self):
- "run site-dependant post-test script as defined in LocalTestResources"
- from LocalTestResources import local_resources
- return local_resources.step_post(self)
-
- def resources_list (self):
- "run site-dependant list script as defined in LocalTestResources"
- from LocalTestResources import local_resources
- return local_resources.step_list(self)
-
- def resources_release (self):
- "run site-dependant release script as defined in LocalTestResources"
- from LocalTestResources import local_resources
- return local_resources.step_release(self)
-
- def resources_release_plc (self):
- "run site-dependant release script as defined in LocalTestResources"
- from LocalTestResources import local_resources
- return local_resources.step_release_plc(self)
-
- def resources_release_qemu (self):
- "run site-dependant release script as defined in LocalTestResources"
- from LocalTestResources import local_resources
- return local_resources.step_release_qemu(self)
-
- def delete_vs(self):
+ # write a timestamp in /vservers/<>.timestamp
+ # cannot be inside the vserver, that causes vserver .. build to cough
+ def plcvm_timestamp (self):
+ "Create a timestamp to remember creation date for this plc"
+ now=int(time.time())
+ # TODO-lxc check this one
+ # a first approx. is to store the timestamp close to the VM root like vs does
+ stamp_path=self.vm_timestamp_path ()
+ stamp_dir = os.path.dirname (stamp_path)
+ utils.system(self.test_ssh.actual_command("mkdir -p %s"%stamp_dir))
+ return utils.system(self.test_ssh.actual_command("echo %d > %s"%(now,stamp_path)))==0
+
+ # this is called inconditionnally at the beginning of the test sequence
+ # just in case this is a rerun, so if the vm is not running it's fine
+ def plcvm_delete(self):
"vserver delete the test myplc"
- self.run_in_host("vserver --silent %s delete"%self.vservername)
+ stamp_path=self.vm_timestamp_path()
+ self.run_in_host("rm -f %s"%stamp_path)
+ self.run_in_host("virsh -c lxc:// destroy %s"%self.vservername)
+ self.run_in_host("virsh -c lxc:// undefine %s"%self.vservername)
+ self.run_in_host("rm -fr /vservers/%s"%self.vservername)
return True
### install
# historically the build was being fetched by the tests
# now the build pushes itself as a subdir of the tests workdir
# so that the tests do not have to worry about extracting the build (svn, git, or whatever)
- def create_vs (self):
+ def plcvm_create (self):
"vserver creation (no install done)"
# push the local build/ dir to the testplc box
if self.is_local():
repo_url = self.options.arch_rpms_url
for level in [ 'arch' ]:
repo_url = os.path.dirname(repo_url)
- # pass the vbuild-nightly options to vtest-init-vserver
- test_env_options=""
- test_env_options += " -p %s"%self.options.personality
- test_env_options += " -d %s"%self.options.pldistro
- test_env_options += " -f %s"%self.options.fcdistro
- script="vtest-init-vserver.sh"
+
+ # invoke initvm (drop support for vs)
+ script="lbuild-initvm.sh"
+ script_options=""
+ # pass the vbuild-nightly options to [lv]test-initvm
+ script_options += " -p %s"%self.options.personality
+ script_options += " -d %s"%self.options.pldistro
+ script_options += " -f %s"%self.options.fcdistro
+ script_options += " -r %s"%repo_url
vserver_name = self.vservername
- vserver_options="--netdev eth0 --interface %s"%self.vserverip
try:
vserver_hostname=socket.gethostbyaddr(self.vserverip)[0]
- vserver_options += " --hostname %s"%vserver_hostname
+ script_options += " -n %s"%vserver_hostname
except:
print "Cannot reverse lookup %s"%self.vserverip
print "This is considered fatal, as this might pollute the test results"
return False
- create_vserver="%(build_dir)s/%(script)s %(test_env_options)s %(vserver_name)s %(repo_url)s -- %(vserver_options)s"%locals()
+ create_vserver="%(build_dir)s/%(script)s %(script_options)s %(vserver_name)s"%locals()
return self.run_in_host(create_vserver) == 0
### install_rpm
- def install(self):
+ def plc_install(self):
"yum install myplc, noderepo, and the plain bootstrapfs"
# workaround for getting pgsql8.2 on centos5
pkgs_list.append ("slicerepo-%s"%nodefamily)
pkgs_list.append ("myplc")
pkgs_list.append ("noderepo-%s"%nodefamily)
- pkgs_list.append ("bootstrapfs-%s-plain"%nodefamily)
+ pkgs_list.append ("nodeimage-%s-plain"%nodefamily)
pkgs_string=" ".join(pkgs_list)
- self.run_in_guest("yum -y install %s"%pkgs_string)
- return self.run_in_guest("rpm -q %s"%pkgs_string)==0
+ return self.yum_install (pkgs_list)
+
+ ###
+ def mod_python(self):
+ """yum install mod_python, useful on f18 and above so as to avoid broken wsgi"""
+ return self.yum_install ( [ 'mod_python' ] )
###
- def configure(self):
+ def plc_configure(self):
"run plc-config-tty"
tmpname='%s.plc-config-tty'%(self.name())
fileconf=open(tmpname,'w')
- for var in [ 'PLC_NAME',
- 'PLC_ROOT_USER',
- 'PLC_ROOT_PASSWORD',
- 'PLC_SLICE_PREFIX',
- 'PLC_MAIL_ENABLED',
- 'PLC_MAIL_SUPPORT_ADDRESS',
- 'PLC_DB_HOST',
- 'PLC_DB_PASSWORD',
- # Above line was added for integrating SFA Testing
- 'PLC_API_HOST',
- 'PLC_WWW_HOST',
- 'PLC_BOOT_HOST',
- 'PLC_NET_DNS1',
- 'PLC_NET_DNS2',
- 'PLC_RESERVATION_GRANULARITY',
- 'PLC_OMF_ENABLED',
- ]:
- fileconf.write ('e %s\n%s\n'%(var,self.plc_spec[var]))
+ for (var,value) in self.plc_spec['settings'].iteritems():
+ fileconf.write ('e %s\n%s\n'%(var,value))
fileconf.write('w\n')
fileconf.write('q\n')
fileconf.close()
utils.system('rm %s'%tmpname)
return True
- def start(self):
+# f14 is a bit odd in this respect, although this worked fine in guests up to f18
+# however using a vplc guest under f20 requires this trick
+# the symptom is this: service plc start
+# Starting plc (via systemctl): Failed to get D-Bus connection: \
+# Failed to connect to socket /org/freedesktop/systemd1/private: Connection refused
+# weird thing is the doc says f14 uses upstart by default and not systemd
+# so this sounds kind of harmless
+ def start_service (self,service): return self.start_stop_service (service,'start')
+ def stop_service (self,service): return self.start_stop_service (service,'stop')
+
+ def start_stop_service (self, service,start_or_stop):
+ "utility to start/stop a service with the special trick for f14"
+ if self.options.fcdistro != 'f14':
+ return self.run_in_guest ("service %s %s"%(service,start_or_stop))==0
+ else:
+ # patch /sbin/service so it does not reset environment
+ self.run_in_guest ('sed -i -e \\"s,env -i,env,\\" /sbin/service')
+ # this is because our own scripts in turn call service
+ return self.run_in_guest("SYSTEMCTL_SKIP_REDIRECT=true service %s %s"%(service,start_or_stop))==0
+
+ def plc_start(self):
"service plc start"
- self.run_in_guest('service plc start')
- return True
+ return self.start_service ('plc')
- def stop(self):
+ def plc_stop(self):
"service plc stop"
- self.run_in_guest('service plc stop')
- return True
-
- def vs_start (self):
+ return self.stop_service ('plc')
+
+ def plcvm_start (self):
"start the PLC vserver"
self.start_guest()
return True
+ def plcvm_stop (self):
+ "stop the PLC vserver"
+ self.stop_guest()
+ return True
+
# stores the keys from the config for further use
- def store_keys(self):
+ def keys_store(self):
"stores test users ssh keys in keys/"
for key_spec in self.plc_spec['keys']:
TestKey(self,key_spec).store_key()
return True
- def clean_keys(self):
+ def keys_clean(self):
"removes keys cached in keys/"
- utils.system("rm -rf %s/keys/"%os.path(sys.argv[0]))
+ utils.system("rm -rf ./keys")
+ return True
# fetches the ssh keys in the plc's /etc/planetlab and stores them in keys/
# for later direct access to the nodes
- def fetch_keys(self):
+ def keys_fetch(self):
"gets ssh keys in /etc/planetlab/ and stores them locally in keys/"
dir="./keys"
if not os.path.isdir(dir):
os.mkdir(dir)
vservername=self.vservername
+ vm_root=self.vm_root_in_host()
overall=True
prefix = 'debug_ssh_key'
for ext in [ 'pub', 'rsa' ] :
- src="/vservers/%(vservername)s/etc/planetlab/%(prefix)s.%(ext)s"%locals()
+ src="%(vm_root)s/etc/planetlab/%(prefix)s.%(ext)s"%locals()
dst="keys/%(vservername)s-debug.%(ext)s"%locals()
if self.test_ssh.fetch(src,dst) != 0: overall=False
return overall
"create sites with PLCAPI"
return self.do_sites()
- def clean_sites (self):
+ def delete_sites (self):
"delete sites with PLCAPI"
return self.do_sites(action="delete")
test_site.create_users()
return True
- def clean_all_sites (self):
+ def delete_all_sites (self):
"Delete all sites in PLC, and related objects"
print 'auth_root',self.auth_root()
- site_ids = [s['site_id'] for s in self.apiserver.GetSites(self.auth_root(), {}, ['site_id'])]
- for site_id in site_ids:
+ sites = self.apiserver.GetSites(self.auth_root(), {}, ['site_id','login_base'])
+ for site in sites:
+ # keep automatic site - otherwise we shoot in our own foot, root_auth is not valid anymore
+ if site['login_base']==self.plc_spec['settings']['PLC_SLICE_PREFIX']: continue
+ site_id=site['site_id']
print 'Deleting site_id',site_id
self.apiserver.DeleteSite(self.auth_root(),site_id)
+ return True
def nodes (self):
"create nodes with PLCAPI"
return self.do_nodes()
- def clean_nodes (self):
+ def delete_nodes (self):
"delete nodes with PLCAPI"
return self.do_nodes(action="delete")
def nodegroups (self):
"create nodegroups with PLCAPI"
return self.do_nodegroups("add")
- def clean_nodegroups (self):
+ def delete_nodegroups (self):
"delete nodegroups with PLCAPI"
return self.do_nodegroups("delete")
return ok
- def clean_leases (self):
+ def delete_leases (self):
"remove all leases in the myplc side"
lease_ids= [ l['lease_id'] for l in self.apiserver.GetLeases(self.auth_root())]
utils.header("Cleaning leases %r"%lease_ids)
tag_type_id = self.apiserver.AddTagType(auth,
{'tagname':nodegroupname,
'description': 'for nodegroup %s'%nodegroupname,
- 'category':'test',
- 'min_role_id':10})
+ 'category':'test'})
print 'located tag (type)',nodegroupname,'as',tag_type_id
# create nodegroup
nodegroups = self.apiserver.GetNodeGroups (auth, {'groupname':nodegroupname})
overall=False
return overall
+ # a list of TestNode objs
+ def all_nodes (self):
+ nodes=[]
+ for site_spec in self.plc_spec['sites']:
+ test_site = TestSite (self,site_spec)
+ for node_spec in site_spec['nodes']:
+ nodes.append(TestNode (self,test_site,node_spec))
+ return nodes
+
# return a list of tuples (nodename,qemuname)
def all_node_infos (self) :
node_infos = []
return res
# silent_minutes : during the first <silent_minutes> minutes nothing gets printed
- def nodes_check_boot_state (self, target_boot_state, timeout_minutes, silent_minutes,period=15):
+ def nodes_check_boot_state (self, target_boot_state, timeout_minutes, silent_minutes,period_seconds=15):
if self.options.dry_run:
print 'dry_run'
return True
- # compute timeout
- timeout = datetime.datetime.now()+datetime.timedelta(minutes=timeout_minutes)
- graceout = datetime.datetime.now()+datetime.timedelta(minutes=silent_minutes)
+
+ class CompleterTaskBootState (CompleterTask):
+ def __init__ (self, test_plc,hostname):
+ self.test_plc=test_plc
+ self.hostname=hostname
+ self.last_boot_state='undef'
+ def actual_run (self):
+ try:
+ node = self.test_plc.apiserver.GetNodes(self.test_plc.auth_root(), [ self.hostname ],
+ ['boot_state'])[0]
+ self.last_boot_state = node['boot_state']
+ return self.last_boot_state == target_boot_state
+ except:
+ return False
+ def message (self):
+ return "CompleterTaskBootState with node %s"%self.hostname
+ def failure_message (self):
+ return "node %s in state %s - expected %s"%(self.hostname,self.last_boot_state,target_boot_state)
+
+ timeout = timedelta(minutes=timeout_minutes)
+ graceout = timedelta(minutes=silent_minutes)
+ period = timedelta(seconds=period_seconds)
# the nodes that haven't checked yet - start with a full list and shrink over time
- tocheck = self.all_hostnames()
- utils.header("checking nodes %r"%tocheck)
- # create a dict hostname -> status
- status = dict ( [ (hostname,'undef') for hostname in tocheck ] )
- while tocheck:
- # get their status
- tocheck_status=self.apiserver.GetNodes(self.auth_root(), tocheck, ['hostname','boot_state' ] )
- # update status
- for array in tocheck_status:
- hostname=array['hostname']
- boot_state=array['boot_state']
- if boot_state == target_boot_state:
- utils.header ("%s has reached the %s state"%(hostname,target_boot_state))
- else:
- # if it's a real node, never mind
- (site_spec,node_spec)=self.locate_hostname(hostname)
- if TestNode.is_real_model(node_spec['node_fields']['model']):
- utils.header("WARNING - Real node %s in %s - ignored"%(hostname,boot_state))
- # let's cheat
- boot_state = target_boot_state
- elif datetime.datetime.now() > graceout:
- utils.header ("%s still in '%s' state"%(hostname,boot_state))
- graceout=datetime.datetime.now()+datetime.timedelta(1)
- status[hostname] = boot_state
- # refresh tocheck
- tocheck = [ hostname for (hostname,boot_state) in status.iteritems() if boot_state != target_boot_state ]
- if not tocheck:
- return True
- if datetime.datetime.now() > timeout:
- for hostname in tocheck:
- utils.header("FAILURE due to %s in '%s' state"%(hostname,status[hostname]))
- return False
- # otherwise, sleep for a while
- time.sleep(period)
- # only useful in empty plcs
- return True
+ utils.header("checking nodes boot state (expected %s)"%target_boot_state)
+ tasks = [ CompleterTaskBootState (self,hostname) \
+ for (hostname,_) in self.all_node_infos() ]
+ return Completer (tasks).run (timeout, graceout, period)
def nodes_booted(self):
- return self.nodes_check_boot_state('boot',timeout_minutes=30,silent_minutes=20)
+ return self.nodes_check_boot_state('boot',timeout_minutes=30,silent_minutes=28)
- def check_nodes_ssh(self,debug,timeout_minutes,silent_minutes,period=15):
- # compute timeout
- timeout = datetime.datetime.now()+datetime.timedelta(minutes=timeout_minutes)
- graceout = datetime.datetime.now()+datetime.timedelta(minutes=silent_minutes)
+ def probe_kvm_iptables (self):
+ (_,kvmbox) = self.all_node_infos()[0]
+ TestSsh(kvmbox).run("iptables-save")
+ return True
+
+ # probing nodes
+ def check_nodes_ping(self,timeout_seconds=120,period_seconds=10):
+ class CompleterTaskPingNode (CompleterTask):
+ def __init__ (self, hostname):
+ self.hostname=hostname
+ def run(self,silent):
+ command="ping -c 1 -w 1 %s >& /dev/null"%self.hostname
+ return utils.system (command, silent=silent)==0
+ def failure_message (self):
+ return "Cannot ping node with name %s"%self.hostname
+ timeout=timedelta (seconds=timeout_seconds)
+ graceout=timeout
+ period=timedelta (seconds=period_seconds)
+ node_infos = self.all_node_infos()
+ tasks = [ CompleterTaskPingNode (h) for (h,_) in node_infos ]
+ return Completer (tasks).run (timeout, graceout, period)
+
+ # ping node before we try to reach ssh, helpful for troubleshooting failing bootCDs
+ def ping_node (self):
+ "Ping nodes"
+ return self.check_nodes_ping ()
+
+ def check_nodes_ssh(self,debug,timeout_minutes,silent_minutes,period_seconds=15):
+ # various delays
+ timeout = timedelta(minutes=timeout_minutes)
+ graceout = timedelta(minutes=silent_minutes)
+ period = timedelta(seconds=period_seconds)
vservername=self.vservername
if debug:
message="debug"
local_key = "keys/%(vservername)s-debug.rsa"%locals()
else:
message="boot"
- local_key = "keys/key1.rsa"
+ local_key = "keys/key_admin.rsa"
+ utils.header("checking ssh access to nodes (expected in %s mode)"%message)
node_infos = self.all_node_infos()
- utils.header("checking ssh access (expected in %s mode) to nodes:"%message)
- for (nodename,qemuname) in node_infos:
- utils.header("hostname=%s -- qemubox=%s"%(nodename,qemuname))
- utils.header("max timeout is %d minutes, silent for %d minutes (period is %s)"%\
- (timeout_minutes,silent_minutes,period))
- while node_infos:
- for node_info in node_infos:
- (hostname,qemuname) = node_info
- # try to run 'hostname' in the node
- command = TestSsh (hostname,key=local_key).actual_command("hostname;uname -a")
- # don't spam logs - show the command only after the grace period
- success = utils.system ( command, silent=datetime.datetime.now() < graceout)
- if success==0:
- utils.header('Successfully entered root@%s (%s)'%(hostname,message))
- # refresh node_infos
- node_infos.remove(node_info)
- else:
- # we will have tried real nodes once, in case they're up - but if not, just skip
- (site_spec,node_spec)=self.locate_hostname(hostname)
- if TestNode.is_real_model(node_spec['node_fields']['model']):
- utils.header ("WARNING : check ssh access into real node %s - skipped"%hostname)
- node_infos.remove(node_info)
- if not node_infos:
- return True
- if datetime.datetime.now() > timeout:
- for (hostname,qemuname) in node_infos:
- utils.header("FAILURE to ssh into %s (on %s)"%(hostname,qemuname))
- return False
- # otherwise, sleep for a while
- time.sleep(period)
- # only useful in empty plcs
- return True
+ tasks = [ CompleterTaskNodeSsh (nodename, qemuname, local_key, boot_state=message) \
+ for (nodename,qemuname) in node_infos ]
+ return Completer (tasks).run (timeout, graceout, period)
- def nodes_ssh_debug(self):
+ def ssh_node_debug(self):
"Tries to ssh into nodes in debug mode with the debug ssh key"
- return self.check_nodes_ssh(debug=True,timeout_minutes=10,silent_minutes=5)
+ return self.check_nodes_ssh(debug=True,
+ timeout_minutes=self.ssh_node_debug_timeout,
+ silent_minutes=self.ssh_node_debug_silent)
- def nodes_ssh_boot(self):
+ def ssh_node_boot(self):
"Tries to ssh into nodes in production mode with the root ssh key"
- return self.check_nodes_ssh(debug=False,timeout_minutes=40,silent_minutes=15)
+ return self.check_nodes_ssh(debug=False,
+ timeout_minutes=self.ssh_node_boot_timeout,
+ silent_minutes=self.ssh_node_boot_silent)
+
+ def node_bmlogs(self):
+ "Checks that there's a non-empty dir. /var/log/bm/raw"
+ return utils.system(self.actual_command_in_guest("ls /var/log/bm/raw"))==0
@node_mapper
- def init_node (self):
- "all nodes : init a clean local directory for holding node-dep stuff like iso image..."
- pass
+ def qemu_local_init (self): pass
@node_mapper
- def bootcd (self):
- "all nodes: invoke GetBootMedium and store result locally"
- pass
+ def bootcd (self): pass
@node_mapper
- def configure_qemu (self):
- "all nodes: compute qemu config qemu.conf and store it locally"
- pass
+ def qemu_local_config (self): pass
@node_mapper
- def reinstall_node (self):
- "all nodes: mark PLCAPI boot_state as reinstall"
- pass
+ def nodestate_reinstall (self): pass
@node_mapper
- def export_qemu (self):
- "all nodes: push local node-dep directory on the qemu box"
- pass
+ def nodestate_safeboot (self): pass
+ @node_mapper
+ def nodestate_boot (self): pass
+ @node_mapper
+ def nodestate_show (self): pass
+ @node_mapper
+ def qemu_export (self): pass
### check hooks : invoke scripts from hooks/{node,slice}
def check_hooks_node (self):
### initscripts
def do_check_initscripts(self):
- overall = True
+ class CompleterTaskInitscript (CompleterTask):
+ def __init__ (self, test_sliver, stamp):
+ self.test_sliver=test_sliver
+ self.stamp=stamp
+ def actual_run (self):
+ return self.test_sliver.check_initscript_stamp (self.stamp)
+ def message (self):
+ return "initscript checker for %s"%self.test_sliver.name()
+ def failure_message (self):
+ return "initscript stamp %s not found in sliver %s"%(self.stamp,self.test_sliver.name())
+
+ tasks=[]
for slice_spec in self.plc_spec['slices']:
- if not slice_spec.has_key('initscriptname'):
+ if not slice_spec.has_key('initscriptstamp'):
continue
- initscript=slice_spec['initscriptname']
+ stamp=slice_spec['initscriptstamp']
+ slicename=slice_spec['slice_fields']['name']
for nodename in slice_spec['nodenames']:
+ print 'nodename',nodename,'slicename',slicename,'stamp',stamp
(site,node) = self.locate_node (nodename)
# xxx - passing the wrong site - probably harmless
test_site = TestSite (self,site)
test_slice = TestSlice (self,test_site,slice_spec)
test_node = TestNode (self,test_site,node)
test_sliver = TestSliver (self, test_node, test_slice)
- if not test_sliver.check_initscript(initscript):
- overall = False
- return overall
+ tasks.append ( CompleterTaskInitscript (test_sliver, stamp))
+ return Completer (tasks).run (timedelta(minutes=5), timedelta(minutes=4), timedelta(seconds=10))
def check_initscripts(self):
"check that the initscripts have triggered"
self.apiserver.AddInitScript(self.auth_root(),initscript['initscript_fields'])
return True
- def clean_initscripts (self):
+ def delete_initscripts (self):
"delete initscripts with PLCAPI"
for initscript in self.plc_spec['initscripts']:
initscript_name = initscript['initscript_fields']['name']
### manage slices
def slices (self):
"create slices with PLCAPI"
- return self.do_slices()
+ return self.do_slices(action="add")
- def clean_slices (self):
+ def delete_slices (self):
"delete slices with PLCAPI"
- return self.do_slices("delete")
+ return self.do_slices(action="delete")
+
+ def fill_slices (self):
+ "add nodes in slices with PLCAPI"
+ return self.do_slices(action="fill")
+
+ def empty_slices (self):
+ "remove nodes from slices with PLCAPI"
+ return self.do_slices(action="empty")
def do_slices (self, action="add"):
for slice in self.plc_spec['slices']:
site_spec = self.locate_site (slice['sitename'])
test_site = TestSite(self,site_spec)
test_slice=TestSlice(self,test_site,slice)
- if action != "add":
- utils.header("Deleting slices in site %s"%test_site.name())
+ if action == "delete":
test_slice.delete_slice()
- else:
- utils.pprint("Creating slice",slice)
+ elif action=="fill":
+ test_slice.add_nodes()
+ elif action=="empty":
+ test_slice.delete_nodes()
+ else:
test_slice.create_slice()
- utils.header('Created Slice %s'%slice['slice_fields']['name'])
return True
+ @slice_mapper__tasks(20,10,15)
+ def ssh_slice(self): pass
+ @slice_mapper__tasks(20,19,15)
+ def ssh_slice_off (self): pass
+ @slice_mapper__tasks(2,1,15)
+ def slice_fs_present(self): pass
+ @slice_mapper__tasks(2,1,15)
+ def slice_fs_deleted(self): pass
+
+ # use another name so we can exclude/ignore it from the tests on the nightly command line
+ def ssh_slice_again(self): return self.ssh_slice()
+ # note that simply doing ssh_slice_again=ssh_slice would kind of work too
+ # but for some reason the ignore-wrapping thing would not
+
@slice_mapper
- def check_slice(self):
- "tries to ssh-enter the slice with the user key, to ensure slice creation"
- pass
+ def ssh_slice_basics(self): pass
+ @slice_mapper
+ def check_vsys_defaults(self): pass
@node_mapper
- def clear_known_hosts (self):
- "remove test nodes entries from the local known_hosts file"
- pass
+ def keys_clear_known_hosts (self): pass
+ def plcapi_urls (self):
+ return PlcapiUrlScanner (self.auth_root(),ip=self.vserverip).scan()
+
+ def speed_up_slices (self):
+ "tweak nodemanager settings on all nodes using a conf file"
+ # create the template on the server-side
+ template="%s.nodemanager"%self.name()
+ template_file = open (template,"w")
+ template_file.write('OPTIONS="-p 30 -r 11 -d"\n')
+ template_file.close()
+ in_vm="/var/www/html/PlanetLabConf/nodemanager"
+ remote="%s/%s"%(self.vm_root_in_host(),in_vm)
+ self.test_ssh.copy_abs(template,remote)
+ # Add a conf file
+ self.apiserver.AddConfFile (self.auth_root(),
+ {'dest':'/etc/sysconfig/nodemanager',
+ 'source':'PlanetLabConf/nodemanager',
+ 'postinstall_cmd':'service nm restart',})
+ return True
+
+ def debug_nodemanager (self):
+ "sets verbose mode for nodemanager, and speeds up cycle even more (needs speed_up_slices first)"
+ template="%s.nodemanager"%self.name()
+ template_file = open (template,"w")
+ template_file.write('OPTIONS="-p 10 -r 6 -v -d"\n')
+ template_file.close()
+ in_vm="/var/www/html/PlanetLabConf/nodemanager"
+ remote="%s/%s"%(self.vm_root_in_host(),in_vm)
+ self.test_ssh.copy_abs(template,remote)
+ return True
+
@node_mapper
- def start_node (self) :
- "all nodes: start the qemu instance (also runs qemu-bridge-init start)"
- pass
+ def qemu_start (self) : pass
+
+ @node_mapper
+ def qemu_timestamp (self) : pass
+
+ # when a spec refers to a node possibly on another plc
+ def locate_sliver_obj_cross (self, nodename, slicename, other_plcs):
+ for plc in [ self ] + other_plcs:
+ try:
+ return plc.locate_sliver_obj (nodename, slicename)
+ except:
+ pass
+ raise Exception, "Cannot locate sliver %s@%s among all PLCs"%(nodename,slicename)
- def check_tcp (self):
+ # implement this one as a cross step so that we can take advantage of different nodes
+ # in multi-plcs mode
+ def cross_check_tcp (self, other_plcs):
"check TCP connectivity between 2 slices (or in loopback if only one is defined)"
- specs = self.plc_spec['tcp_test']
+ if 'tcp_specs' not in self.plc_spec or not self.plc_spec['tcp_specs']:
+ utils.header ("check_tcp: no/empty config found")
+ return True
+ specs = self.plc_spec['tcp_specs']
overall=True
for spec in specs:
port = spec['port']
# server side
- s_test_sliver = self.locate_sliver_obj (spec['server_node'],spec['server_slice'])
- if not s_test_sliver.run_tcp_server(port,timeout=10):
+ s_test_sliver = self.locate_sliver_obj_cross (spec['server_node'],spec['server_slice'],other_plcs)
+ if not s_test_sliver.run_tcp_server(port,timeout=20):
overall=False
break
# idem for the client side
- c_test_sliver = self.locate_sliver_obj(spec['server_node'],spec['server_slice'])
- if not c_test_sliver.run_tcp_client(s_test_sliver.test_node.name(),port):
+ c_test_sliver = self.locate_sliver_obj_cross (spec['client_node'],spec['client_slice'],other_plcs)
+ # use nodename from locatesd sliver, unless 'client_connect' is set
+ if 'client_connect' in spec:
+ destination = spec['client_connect']
+ else:
+ destination=s_test_sliver.test_node.name()
+ if not c_test_sliver.run_tcp_client(destination,port):
overall=False
return overall
+ # painfully enough, we need to allow for some time as netflow might show up last
+ def check_system_slice (self):
+ "all nodes: check that a system slice is alive"
+ # netflow currently not working in the lxc distro
+ # drl not built at all in the wtx distro
+ # if we find either of them we're happy
+ return self.check_netflow() or self.check_drl()
+
+ # expose these
+ def check_netflow (self): return self._check_system_slice ('netflow')
+ def check_drl (self): return self._check_system_slice ('drl')
+
+ # we have the slices up already here, so it should not take too long
+ def _check_system_slice (self, slicename, timeout_minutes=5, period_seconds=15):
+ class CompleterTaskSystemSlice (CompleterTask):
+ def __init__ (self, test_node, dry_run):
+ self.test_node=test_node
+ self.dry_run=dry_run
+ def actual_run (self):
+ return self.test_node._check_system_slice (slicename, dry_run=self.dry_run)
+ def message (self):
+ return "System slice %s @ %s"%(slicename, self.test_node.name())
+ def failure_message (self):
+ return "COULD not find system slice %s @ %s"%(slicename, self.test_node.name())
+ timeout = timedelta(minutes=timeout_minutes)
+ silent = timedelta (0)
+ period = timedelta (seconds=period_seconds)
+ tasks = [ CompleterTaskSystemSlice (test_node, self.options.dry_run) \
+ for test_node in self.all_nodes() ]
+ return Completer (tasks) . run (timeout, silent, period)
+
def plcsh_stress_test (self):
"runs PLCAPI stress test, that checks Add/Update/Delete on all types - preserves contents"
# install the stress-test in the plc image
location = "/usr/share/plc_api/plcsh_stress_test.py"
- remote="/vservers/%s/%s"%(self.vservername,location)
+ remote="%s/%s"%(self.vm_root_in_host(),location)
self.test_ssh.copy_abs("plcsh_stress_test.py",remote)
command = location
command += " -- --check"
# in particular runs with --preserve (dont cleanup) and without --check
# also it gets run twice, once with the --foreign option for creating fake foreign entries
- ### install_sfa_rpm
- def install_sfa(self):
- "yum install sfa, sfa-plc and sfa-client"
- # ignore yum retcod
- self.run_in_guest("yum -y install sfa sfa-client sfa-plc sfa-sfatables")
- return self.run_in_guest("rpm -q sfa sfa-client sfa-plc sfa-sfatables")==0
-
+ def sfa_install_all (self):
+ "yum install sfa sfa-plc sfa-sfatables sfa-client"
+ return self.yum_install ("sfa sfa-plc sfa-sfatables sfa-client")
- def dbclean_sfa(self):
+ def sfa_install_core(self):
+ "yum install sfa"
+ return self.yum_install ("sfa")
+
+ def sfa_install_plc(self):
+ "yum install sfa-plc"
+ return self.yum_install("sfa-plc")
+
+ def sfa_install_sfatables(self):
+ "yum install sfa-sfatables"
+ return self.yum_install ("sfa-sfatables")
+
+ # for some very odd reason, this sometimes fails with the following symptom
+ # # yum install sfa-client
+ # Setting up Install Process
+ # ...
+ # Downloading Packages:
+ # Running rpm_check_debug
+ # Running Transaction Test
+ # Transaction Test Succeeded
+ # Running Transaction
+ # Transaction couldn't start:
+ # installing package sfa-client-2.1-7.onelab.2012.05.23.i686 needs 68KB on the / filesystem
+ # [('installing package sfa-client-2.1-7.onelab.2012.05.23.i686 needs 68KB on the / filesystem', (9, '/', 69632L))]
+ # even though in the same context I have
+ # [2012.05.23--f14-32-sfastd1-1-vplc07] / # df -h
+ # Filesystem Size Used Avail Use% Mounted on
+ # /dev/hdv1 806G 264G 501G 35% /
+ # none 16M 36K 16M 1% /tmp
+ #
+ # so as a workaround, we first try yum install, and then invoke rpm on the cached rpm...
+ def sfa_install_client(self):
+ "yum install sfa-client"
+ first_try=self.yum_install("sfa-client")
+ if first_try: return True
+ utils.header ("********** Regular yum failed - special workaround in place, 2nd chance")
+ (code,cached_rpm_path)=utils.output_of(self.actual_command_in_guest('find /var/cache/yum -name sfa-client\*.rpm'))
+ utils.header("rpm_path=<<%s>>"%rpm_path)
+ # just for checking
+ self.run_in_guest("rpm -i %s"%cached_rpm_path)
+ return self.yum_check_installed ("sfa-client")
+
+ def sfa_dbclean(self):
"thoroughly wipes off the SFA database"
- self.run_in_guest("sfa-nuke-plc.py")==0
+ return self.run_in_guest("sfaadmin reg nuke")==0 or \
+ self.run_in_guest("sfa-nuke.py")==0 or \
+ self.run_in_guest("sfa-nuke-plc.py")==0
+
+ def sfa_fsclean(self):
+ "cleanup /etc/sfa/trusted_roots and /var/lib/sfa"
+ self.run_in_guest("rm -rf /etc/sfa/trusted_roots /var/lib/sfa/authorities")
return True
- def plcclean_sfa(self):
+ def sfa_plcclean(self):
"cleans the PLC entries that were created as a side effect of running the script"
# ignore result
sfa_spec=self.plc_spec['sfa']
- slicename='%s_%s'%(sfa_spec['login_base'],sfa_spec['slicename'])
- try: self.apiserver.DeleteSlice(self.auth_root(),slicename)
- except: print "Slice %s already absent from PLC db"%slicename
-
- username="%s@%s"%(sfa_spec['regularuser'],sfa_spec['domain'])
- try: self.apiserver.DeletePerson(self.auth_root(),username)
- except: print "User %s already absent from PLC db"%username
-
- print "REMEMBER TO RUN import_sfa AGAIN"
+ for auth_sfa_spec in sfa_spec['auth_sfa_specs']:
+ login_base=auth_sfa_spec['login_base']
+ try: self.apiserver.DeleteSite (self.auth_root(),login_base)
+ except: print "Site %s already absent from PLC db"%login_base
+
+ for spec_name in ['pi_spec','user_spec']:
+ user_spec=auth_sfa_spec[spec_name]
+ username=user_spec['email']
+ try: self.apiserver.DeletePerson(self.auth_root(),username)
+ except:
+ # this in fact is expected as sites delete their members
+ #print "User %s already absent from PLC db"%username
+ pass
+
+ print "REMEMBER TO RUN sfa_import AGAIN"
return True
- def uninstall_sfa(self):
+ def sfa_uninstall(self):
"uses rpm to uninstall sfa - ignore result"
self.run_in_guest("rpm -e sfa sfa-sfatables sfa-client sfa-plc")
self.run_in_guest("rm -rf /var/lib/sfa")
self.run_in_guest("rpm -e --noscripts sfa-plc")
return True
+ ### run unit tests for SFA
+ # NOTE: for some reason on f14/i386, yum install sfa-tests fails for no reason
+ # Running Transaction
+ # Transaction couldn't start:
+ # installing package sfa-tests-1.0-21.onelab.i686 needs 204KB on the / filesystem
+ # [('installing package sfa-tests-1.0-21.onelab.i686 needs 204KB on the / filesystem', (9, '/', 208896L))]
+ # no matter how many Gbs are available on the testplc
+ # could not figure out what's wrong, so...
+ # if the yum install phase fails, consider the test is successful
+ # other combinations will eventually run it hopefully
+ def sfa_utest(self):
+ "yum install sfa-tests and run SFA unittests"
+ self.run_in_guest("yum -y install sfa-tests")
+ # failed to install - forget it
+ if self.run_in_guest("rpm -q sfa-tests")!=0:
+ utils.header("WARNING: SFA unit tests failed to install, ignoring")
+ return True
+ return self.run_in_guest("/usr/share/sfa/tests/testAll.py")==0
+
###
def confdir(self):
dirname="conf.%s"%self.plc_spec['name']
if not os.path.isdir(dirname):
utils.system("mkdir -p %s"%dirname)
if not os.path.isdir(dirname):
- raise "Cannot create config dir for plc %s"%self.name()
+ raise Exception,"Cannot create config dir for plc %s"%self.name()
return dirname
def conffile(self,filename):
return "%s/%s"%(self.confdir(),filename)
- def confsubdir(self,dirname,clean):
+ def confsubdir(self,dirname,clean,dry_run=False):
subdirname="%s/%s"%(self.confdir(),dirname)
if clean:
utils.system("rm -rf %s"%subdirname)
if not os.path.isdir(subdirname):
utils.system("mkdir -p %s"%subdirname)
- if not os.path.isdir(subdirname):
+ if not dry_run and not os.path.isdir(subdirname):
raise "Cannot create config subdir %s for plc %s"%(dirname,self.name())
return subdirname
return utils.system("rm -rf %s"%filename)==0
###
- def configure_sfa(self):
+ def sfa_configure(self):
"run sfa-config-tty"
tmpname=self.conffile("sfa-config-tty")
fileconf=open(tmpname,'w')
- for var in [ 'SFA_REGISTRY_ROOT_AUTH',
- 'SFA_INTERFACE_HRN',
-# 'SFA_REGISTRY_LEVEL1_AUTH',
- 'SFA_REGISTRY_HOST',
- 'SFA_AGGREGATE_HOST',
- 'SFA_SM_HOST',
- 'SFA_PLC_USER',
- 'SFA_PLC_PASSWORD',
- 'SFA_PLC_DB_HOST',
- 'SFA_PLC_DB_USER',
- 'SFA_PLC_DB_PASSWORD',
- 'SFA_PLC_URL',
- ]:
- fileconf.write ('e %s\n%s\n'%(var,self.plc_spec['sfa'][var]))
- # the way plc_config handles booleans just sucks..
- for var in ['SFA_API_DEBUG']:
- val='false'
- if self.plc_spec['sfa'][var]: val='true'
- fileconf.write ('e %s\n%s\n'%(var,val))
+ for (var,value) in self.plc_spec['sfa']['settings'].iteritems():
+ fileconf.write ('e %s\n%s\n'%(var,value))
+# # the way plc_config handles booleans just sucks..
+# for var in []:
+# val='false'
+# if self.plc_spec['sfa'][var]: val='true'
+# fileconf.write ('e %s\n%s\n'%(var,val))
fileconf.write('w\n')
fileconf.write('R\n')
fileconf.write('q\n')
return True
def aggregate_xml_line(self):
- return '<aggregate addr="%s" hrn="%s" port="12346"/>' % \
- (self.vserverip,self.plc_spec['sfa']['SFA_REGISTRY_ROOT_AUTH'])
+ port=self.plc_spec['sfa']['neighbours-port']
+ return '<aggregate addr="%s" hrn="%s" port="%r"/>' % \
+ (self.vserverip,self.plc_spec['sfa']['settings']['SFA_REGISTRY_ROOT_AUTH'],port)
def registry_xml_line(self):
return '<registry addr="%s" hrn="%s" port="12345"/>' % \
- (self.vserverip,self.plc_spec['sfa']['SFA_REGISTRY_ROOT_AUTH'])
+ (self.vserverip,self.plc_spec['sfa']['settings']['SFA_REGISTRY_ROOT_AUTH'])
# a cross step that takes all other plcs in argument
- def cross_configure_sfa(self, other_plcs):
+ def cross_sfa_configure(self, other_plcs):
+ "writes aggregates.xml and registries.xml that point to all other PLCs in the test"
# of course with a single plc, other_plcs is an empty list
if not other_plcs:
return True
file(reg_fname,"w").write("<registries>%s</registries>\n" % \
" ".join([ plc.registry_xml_line() for plc in other_plcs ]))
utils.header ("(Over)wrote %s"%reg_fname)
- return self.test_ssh.copy_abs(agg_fname,'/vservers/%s/etc/sfa/aggregates.xml'%self.vservername)==0 \
- and self.test_ssh.copy_abs(reg_fname,'/vservers/%s/etc/sfa/registries.xml'%self.vservername)==0
+ return self.test_ssh.copy_abs(agg_fname,'/%s/etc/sfa/aggregates.xml'%self.vm_root_in_host())==0 \
+ and self.test_ssh.copy_abs(reg_fname,'/%s/etc/sfa/registries.xml'%self.vm_root_in_host())==0
- def import_sfa(self):
- "sfa-import-plc"
- auth=self.plc_spec['sfa']['SFA_REGISTRY_ROOT_AUTH']
- return self.run_in_guest('sfa-import-plc.py')==0
-# not needed anymore
-# self.run_in_guest('cp /etc/sfa/authorities/%s/%s.pkey /etc/sfa/authorities/server.key'%(auth,auth))
+ def sfa_import(self):
+ "use sfaadmin to import from plc"
+ auth=self.plc_spec['sfa']['settings']['SFA_REGISTRY_ROOT_AUTH']
+ return self.run_in_guest('sfaadmin reg import_registry')==0
- def start_sfa(self):
+ def sfa_start(self):
"service sfa start"
- return self.run_in_guest('service sfa start')==0
+ return self.start_service('sfa')
- def configure_sfi(self):
- sfa_spec=self.plc_spec['sfa']
- "sfi client configuration"
- dir_name=self.confsubdir("dot-sfi",clean=True)
- file_name=dir_name + os.sep + sfa_spec['piuser'] + '.pkey'
- fileconf=open(file_name,'w')
- fileconf.write (self.plc_spec['keys'][0]['private'])
- 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.%s"%(sfa_spec['SFA_REGISTRY_ROOT_AUTH'],sfa_spec['login_base'])
- fileconf.write ("SFI_AUTH='%s'"%SFI_AUTH)
- fileconf.write('\n')
- SFI_USER=SFI_AUTH + '.' + sfa_spec['piuser']
- fileconf.write ("SFI_USER='%s'"%SFI_USER)
- fileconf.write('\n')
- SFI_REGISTRY='http://' + sfa_spec['SFA_PLC_DB_HOST'] + ':12345/'
- fileconf.write ("SFI_REGISTRY='%s'"%SFI_REGISTRY)
- fileconf.write('\n')
- SFI_SM='http://' + sfa_spec['SFA_PLC_DB_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 + 'person.xml'
- fileconf=open(file_name,'w')
- for record in sfa_spec['sfa_person_xml']:
- person_record=record
- fileconf.write(person_record)
- fileconf.write('\n')
- fileconf.close()
- utils.header ("(Over)wrote %s"%file_name)
-
- file_name=dir_name + os.sep + 'slice.xml'
- fileconf=open(file_name,'w')
- for record in sfa_spec['sfa_slice_xml']:
- slice_record=record
- #slice_record=sfa_spec['sfa_slice_xml']
- fileconf.write(slice_record)
- fileconf.write('\n')
- utils.header ("(Over)wrote %s"%file_name)
- fileconf.close()
- file_name=dir_name + os.sep + 'slice.rspec'
- fileconf=open(file_name,'w')
- slice_rspec=''
- for (key, value) in sfa_spec['sfa_slice_rspec'].items():
- slice_rspec +=value
- fileconf.write(slice_rspec)
- fileconf.write('\n')
- fileconf.close()
- utils.header ("(Over)wrote %s"%file_name)
-
- # push to the remote root's .sfi
- location = "root/.sfi"
- remote="/vservers/%s/%s"%(self.vservername,location)
- self.test_ssh.copy_abs(dir_name, remote, recursive=True)
+ def sfi_configure(self):
+ "Create /root/sfi on the plc side for sfi client configuration"
+ if self.options.dry_run:
+ utils.header("DRY RUN - skipping step")
+ return True
+ sfa_spec=self.plc_spec['sfa']
+ # cannot use auth_sfa_mapper to pass dir_name
+ for slice_spec in self.plc_spec['sfa']['auth_sfa_specs']:
+ test_slice=TestAuthSfa(self,slice_spec)
+ dir_basename=os.path.basename(test_slice.sfi_path())
+ dir_name=self.confsubdir("dot-sfi/%s"%dir_basename,clean=True,dry_run=self.options.dry_run)
+ test_slice.sfi_configure(dir_name)
+ # push into the remote /root/sfi area
+ location = test_slice.sfi_path()
+ remote="%s/%s"%(self.vm_root_in_host(),location)
+ self.test_ssh.mkdir(remote,abs=True)
+ # need to strip last level or remote otherwise we get an extra dir level
+ self.test_ssh.copy_abs(dir_name, os.path.dirname(remote), recursive=True)
return True
- def clean_sfi (self):
- self.run_in_guest("rm -rf /root/.sfi")
+ def sfi_clean (self):
+ "clean up /root/sfi on the plc side"
+ self.run_in_guest("rm -rf /root/sfi")
return True
- def add_user_sfa(self):
- return TestUserSfa(self).add_user()
-
- @slice_sfa_mapper
- def add_sfa(self):
- "run sfi.py add (on Registry)"
- pass
-
- @slice_sfa_mapper
- def create_sfa(self):
- "run sfi.py create (on SM) for 1st-time creation"
- pass
-
- def update_user_sfa(self):
- return TestUserSfa(self).update_user()
-
- @slice_sfa_mapper
- def update_sfa(self):
- "run sfi.py create (on SM) on existing object"
- pass
-
- def view_sfa(self):
- "run sfi.py list and sfi.py show (both on Registry) and sfi.py slices and sfi.py resources (both on SM)"
- sfa_spec=self.plc_spec['sfa']
- auth=sfa_spec['SFA_REGISTRY_ROOT_AUTH']
- return \
- self.run_in_guest("sfi.py -d /root/.sfi/ list %s.%s"%(auth,sfa_spec['login_base']))==0 and \
- self.run_in_guest("sfi.py -d /root/.sfi/ show %s.%s"%(auth,sfa_spec['login_base']))==0 and \
- self.run_in_guest("sfi.py -d /root/.sfi/ slices")==0 and \
- self.run_in_guest("sfi.py -d /root/.sfi/ resources -o resources")==0
-
- @slice_sfa_mapper
- def check_slice_sfa(self):
- "tries to ssh-enter the SFA slice"
- pass
-
- def delete_user_sfa(self):
- "run sfi.py delete (on SM) for user"
- test_user_sfa=TestUserSfa(self)
- return test_user_sfa.delete_user()
-
- @slice_sfa_mapper
- def delete_slice_sfa(self):
- "run sfi.py delete (on SM), sfi.py remove (on Registry) to clean slices"
- pass
-
- def stop_sfa(self):
+ @auth_sfa_mapper
+ def sfa_register_site (self): pass
+ @auth_sfa_mapper
+ def sfa_register_pi (self): pass
+ @auth_sfa_mapper
+ def sfa_register_user(self): pass
+ @auth_sfa_mapper
+ def sfa_update_user(self): pass
+ @auth_sfa_mapper
+ def sfa_register_slice(self): pass
+ @auth_sfa_mapper
+ def sfa_renew_slice(self): pass
+ @auth_sfa_mapper
+ def sfa_discover(self): pass
+ @auth_sfa_mapper
+ def sfa_create_slice(self): pass
+ @auth_sfa_mapper
+ def sfa_check_slice_plc(self): pass
+ @auth_sfa_mapper
+ def sfa_update_slice(self): pass
+ @auth_sfa_mapper
+ def sfa_remove_user_from_slice(self): pass
+ @auth_sfa_mapper
+ def sfa_insert_user_in_slice(self): pass
+ @auth_sfa_mapper
+ def sfi_list(self): pass
+ @auth_sfa_mapper
+ def sfi_show_site(self): pass
+ @auth_sfa_mapper
+ def sfi_show_slice(self): pass
+ @auth_sfa_mapper
+ def sfi_show_slice_researchers(self): pass
+ @auth_sfa_mapper
+ def ssh_slice_sfa(self): pass
+ @auth_sfa_mapper
+ def sfa_delete_user(self): pass
+ @auth_sfa_mapper
+ def sfa_delete_slice(self): pass
+
+ def sfa_stop(self):
"service sfa stop"
- self.run_in_guest('service sfa stop')==0
- return True
+ return self.stop_service ('sfa')
def populate (self):
"creates random entries in the PLCAPI"
# install the stress-test in the plc image
location = "/usr/share/plc_api/plcsh_stress_test.py"
- remote="/vservers/%s/%s"%(self.vservername,location)
+ remote="%s/%s"%(self.vm_root_in_host(),location)
self.test_ssh.copy_abs("plcsh_stress_test.py",remote)
command = location
command += " -- --preserve --short-names"
"gets all possible logs from plc's/qemu node's/slice's for future reference"
# (1.a) get the plc's /var/log/ and store it locally in logs/myplc.var-log.<plcname>/*
# (1.b) get the plc's /var/lib/pgsql/data/pg_log/ -> logs/myplc.pgsql-log.<plcname>/*
+ # (1.c) get the plc's /root/sfi -> logs/sfi.<plcname>/
# (2) get all the nodes qemu log and store it as logs/node.qemu.<node>.log
# (3) get the nodes /var/log and store is as logs/node.var-log.<node>/*
# (4) as far as possible get the slice's /var/log as logs/sliver.var-log.<sliver>/*
# (1.b)
print "-------------------- TestPlc.gather_logs : PLC's /var/lib/psql/data/pg_log/"
self.gather_pgsql_logs ()
+ # (1.c)
+ print "-------------------- TestPlc.gather_logs : PLC's /root/sfi/"
+ self.gather_root_sfi ()
# (2)
print "-------------------- TestPlc.gather_logs : nodes's QEMU logs"
for site_spec in self.plc_spec['sites']:
command = to_plc + "| tar -C logs/myplc.pgsql-log.%s -xf -"%self.name()
utils.system(command)
+ def gather_root_sfi (self):
+ utils.system("mkdir -p logs/sfi.%s"%self.name())
+ to_plc = self.actual_command_in_guest("tar -C /root/sfi/ -cf - .")
+ command = to_plc + "| tar -C logs/sfi.%s -xf -"%self.name()
+ utils.system(command)
+
def gather_nodes_var_logs (self):
for site_spec in self.plc_spec['sites']:
test_site = TestSite (self,site_spec)
for node_spec in site_spec['nodes']:
test_node=TestNode(self,test_site,node_spec)
- test_ssh = TestSsh (test_node.name(),key="keys/key1.rsa")
+ test_ssh = TestSsh (test_node.name(),key="keys/key_admin.rsa")
command = test_ssh.actual_command("tar -C /var/log -cf - .")
command = command + "| tar -C logs/node.var-log.%s -xf -"%test_node.name()
utils.system("mkdir -p logs/node.var-log.%s"%test_node.name())
if not isinstance(name,StringTypes):
raise Exception
except:
- t=datetime.datetime.now()
+ t=datetime.now()
d=t.date()
name=str(d)
return "/root/%s-%s.sql"%(database,name)
- def db_dump(self):
+ def plc_db_dump(self):
'dump the planetlab5 DB in /root in the PLC - filename has time'
dump=self.dbfile("planetab5")
self.run_in_guest('pg_dump -U pgsqluser planetlab5 -f '+ dump)
utils.header('Dumped planetlab5 database in %s'%dump)
return True
- def db_restore(self):
+ def plc_db_restore(self):
'restore the planetlab5 DB - looks broken, but run -n might help'
dump=self.dbfile("planetab5")
##stop httpd service
utils.header('Database restored from ' + dump)
+ @staticmethod
+ def create_ignore_steps ():
+ for step in TestPlc.default_steps + TestPlc.other_steps:
+ # default step can have a plc qualifier
+ if '@' in step: (step,qualifier)=step.split('@')
+ # or be defined as forced or ignored by default
+ for keyword in ['_ignore','_force']:
+ if step.endswith (keyword): step=step.replace(keyword,'')
+ if step == SEP or step == SEPSFA : continue
+ method=getattr(TestPlc,step)
+ name=step+'_ignore'
+ wrapped=ignore_result(method)
+# wrapped.__doc__ = method.__doc__ + " (run in ignore-result mode)"
+ setattr(TestPlc, name, wrapped)
+
+# @ignore_result
+# def ssh_slice_again_ignore (self): pass
+# @ignore_result
+# def check_initscripts_ignore (self): pass
+
+ def standby_1_through_20(self):
+ """convenience function to wait for a specified number of minutes"""
+ pass
@standby_generic
def standby_1(): pass
@standby_generic
def standby_19(): pass
@standby_generic
def standby_20(): pass
+
+ # convenience for debugging the test logic
+ def yes (self): return True
+ def no (self): return False