dirsrvtests/tickets/ticket47869MMR_test.py | 416 +++++++++++++++++++++++++++++
1 file changed, 416 insertions(+)
New commits:
commit b85efe48267b7103baccb09f0305577aa112f4b2
Author: Noriko Hosoi <nhosoi(a)redhat.com>
Date: Fri Aug 8 15:28:25 2014 -0700
Ticket 47869 - CI test: add test case for ticket 47869
Description:
On Master 1 and 2:
Bind as Directory Manager.
Search all specifying nscpEntryWsi in the attribute list.
Check nscpEntryWsi is returned.
On Master 1 and 2:
Bind as Bind Entry.
Search all specifying nscpEntryWsi in the attribute list.
Check nscpEntryWsi is not returned.
On Master 1 and 2:
Bind as anonymous.
Search all specifying nscpEntryWsi in the attribute list.
Check nscpEntryWsi is not returned.
diff --git a/dirsrvtests/tickets/ticket47869MMR_test.py b/dirsrvtests/tickets/ticket47869MMR_test.py
new file mode 100644
index 0000000..47ac5b2
--- /dev/null
+++ b/dirsrvtests/tickets/ticket47869MMR_test.py
@@ -0,0 +1,416 @@
+import os
+import sys
+import time
+import ldap
+import logging
+import socket
+import time
+import logging
+import pytest
+import re
+from lib389 import DirSrv, Entry, tools
+from lib389.tools import DirSrvTools
+from lib389._constants import *
+from lib389.properties import *
+from constants import *
+from lib389._constants import *
+
+logging.getLogger(__name__).setLevel(logging.DEBUG)
+log = logging.getLogger(__name__)
+
+#
+# important part. We can deploy Master1 and Master2 on different versions
+#
+installation1_prefix = None
+installation2_prefix = None
+
+TEST_REPL_DN = "cn=test_repl, %s" % SUFFIX
+ENTRY_NAME = 'test_entry'
+MAX_ENTRIES = 10
+
+BIND_NAME = 'bind_entry'
+BIND_DN = 'cn=%s, %s' % (BIND_NAME, SUFFIX)
+BIND_PW = 'password'
+
+class TopologyMaster1Master2(object):
+ def __init__(self, master1, master2):
+ master1.open()
+ self.master1 = master1
+
+ master2.open()
+ self.master2 = master2
+
+(a)pytest.fixture(scope="module")
+def topology(request):
+ '''
+ This fixture is used to create a replicated topology for the 'module'.
+ The replicated topology is MASTER1 <-> Master2.
+ At the beginning, It may exists a master2 instance and/or a master2 instance.
+ It may also exists a backup for the master1 and/or the master2.
+
+ Principle:
+ If master1 instance exists:
+ restart it
+ If master2 instance exists:
+ restart it
+ If backup of master1 AND backup of master2 exists:
+ create or rebind to master1
+ create or rebind to master2
+
+ restore master1 from backup
+ restore master2 from backup
+ else:
+ Cleanup everything
+ remove instances
+ remove backups
+ Create instances
+ Initialize replication
+ Create backups
+ '''
+ global installation1_prefix
+ global installation2_prefix
+
+ # allocate master1 on a given deployement
+ master1 = DirSrv(verbose=False)
+ if installation1_prefix:
+ args_instance[SER_DEPLOYED_DIR] = installation1_prefix
+
+ # Args for the master1 instance
+ args_instance[SER_HOST] = HOST_MASTER_1
+ args_instance[SER_PORT] = PORT_MASTER_1
+ args_instance[SER_SERVERID_PROP] = SERVERID_MASTER_1
+ args_master = args_instance.copy()
+ master1.allocate(args_master)
+
+ # allocate master1 on a given deployement
+ master2 = DirSrv(verbose=False)
+ if installation2_prefix:
+ args_instance[SER_DEPLOYED_DIR] = installation2_prefix
+
+ # Args for the consumer instance
+ args_instance[SER_HOST] = HOST_MASTER_2
+ args_instance[SER_PORT] = PORT_MASTER_2
+ args_instance[SER_SERVERID_PROP] = SERVERID_MASTER_2
+ args_master = args_instance.copy()
+ master2.allocate(args_master)
+
+
+ # Get the status of the backups
+ backup_master1 = master1.checkBackupFS()
+ backup_master2 = master2.checkBackupFS()
+
+ # Get the status of the instance and restart it if it exists
+ instance_master1 = master1.exists()
+ if instance_master1:
+ master1.stop(timeout=10)
+ master1.start(timeout=10)
+
+ instance_master2 = master2.exists()
+ if instance_master2:
+ master2.stop(timeout=10)
+ master2.start(timeout=10)
+
+ if backup_master1 and backup_master2:
+ # The backups exist, assuming they are correct
+ # we just re-init the instances with them
+ if not instance_master1:
+ master1.create()
+ # Used to retrieve configuration information (dbdir, confdir...)
+ master1.open()
+
+ if not instance_master2:
+ master2.create()
+ # Used to retrieve configuration information (dbdir, confdir...)
+ master2.open()
+
+ # restore master1 from backup
+ master1.stop(timeout=10)
+ master1.restoreFS(backup_master1)
+ master1.start(timeout=10)
+
+ # restore master2 from backup
+ master2.stop(timeout=10)
+ master2.restoreFS(backup_master2)
+ master2.start(timeout=10)
+ else:
+ # We should be here only in two conditions
+ # - This is the first time a test involve master-consumer
+ # so we need to create everything
+ # - Something weird happened (instance/backup destroyed)
+ # so we discard everything and recreate all
+
+ # Remove all the backups. So even if we have a specific backup file
+ # (e.g backup_master) we clear all backups that an instance my have created
+ if backup_master1:
+ master1.clearBackupFS()
+ if backup_master2:
+ master2.clearBackupFS()
+
+ # Remove all the instances
+ if instance_master1:
+ master1.delete()
+ if instance_master2:
+ master2.delete()
+
+ # Create the instances
+ master1.create()
+ master1.open()
+ master2.create()
+ master2.open()
+
+ #
+ # Now prepare the Master-Consumer topology
+ #
+ # First Enable replication
+ master1.replica.enableReplication(suffix=SUFFIX, role=REPLICAROLE_MASTER, replicaId=REPLICAID_MASTER_1)
+ master2.replica.enableReplication(suffix=SUFFIX, role=REPLICAROLE_MASTER, replicaId=REPLICAID_MASTER_2)
+
+ # Initialize the supplier->consumer
+
+ properties = {RA_NAME: r'meTo_$host:$port',
+ RA_BINDDN: defaultProperties[REPLICATION_BIND_DN],
+ RA_BINDPW: defaultProperties[REPLICATION_BIND_PW],
+ RA_METHOD: defaultProperties[REPLICATION_BIND_METHOD],
+ RA_TRANSPORT_PROT: defaultProperties[REPLICATION_TRANSPORT]}
+ repl_agreement = master1.agreement.create(suffix=SUFFIX, host=master2.host, port=master2.port, properties=properties)
+
+ if not repl_agreement:
+ log.fatal("Fail to create a replica agreement")
+ sys.exit(1)
+
+ log.debug("%s created" % repl_agreement)
+
+ properties = {RA_NAME: r'meTo_$host:$port',
+ RA_BINDDN: defaultProperties[REPLICATION_BIND_DN],
+ RA_BINDPW: defaultProperties[REPLICATION_BIND_PW],
+ RA_METHOD: defaultProperties[REPLICATION_BIND_METHOD],
+ RA_TRANSPORT_PROT: defaultProperties[REPLICATION_TRANSPORT]}
+ master2.agreement.create(suffix=SUFFIX, host=master1.host, port=master1.port, properties=properties)
+
+ master1.agreement.init(SUFFIX, HOST_MASTER_2, PORT_MASTER_2)
+ master1.waitForReplInit(repl_agreement)
+
+ # Check replication is working fine
+ master1.add_s(Entry((TEST_REPL_DN, {'objectclass': "top person".split(),
+ 'sn': 'test_repl',
+ 'cn': 'test_repl'})))
+ loop = 0
+ while loop <= 10:
+ try:
+ ent = master2.getEntry(TEST_REPL_DN, ldap.SCOPE_BASE, "(objectclass=*)")
+ break
+ except ldap.NO_SUCH_OBJECT:
+ time.sleep(1)
+ loop += 1
+
+ # Time to create the backups
+ master1.stop(timeout=10)
+ master1.backupfile = master1.backupFS()
+ master1.start(timeout=10)
+
+ master2.stop(timeout=10)
+ master2.backupfile = master2.backupFS()
+ master2.start(timeout=10)
+
+ # clear the tmp directory
+ master1.clearTmpDir(__file__)
+
+ #
+ # Here we have two instances master and consumer
+ # with replication working. Either coming from a backup recovery
+ # or from a fresh (re)init
+ # Time to return the topology
+ return TopologyMaster1Master2(master1, master2)
+
+def test_ticket47869_init(topology):
+ """
+ It adds an entry ('bind_entry') and 10 test entries
+ It sets the anonymous aci
+
+ """
+ # enable acl error logging
+ mod = [(ldap.MOD_REPLACE, 'nsslapd-errorlog-level', str(8192))] # REPL
+ topology.master1.modify_s(DN_CONFIG, mod)
+ topology.master2.modify_s(DN_CONFIG, mod)
+
+ # entry used to bind with
+ topology.master1.log.info("Add %s" % BIND_DN)
+ topology.master1.add_s(Entry((BIND_DN, {
+ 'objectclass': "top person".split(),
+ 'sn': BIND_NAME,
+ 'cn': BIND_NAME,
+ 'userpassword': BIND_PW})))
+ loop = 0
+ while loop <= 10:
+ try:
+ ent = topology.master2.getEntry(BIND_DN, ldap.SCOPE_BASE, "(objectclass=*)")
+ break
+ except ldap.NO_SUCH_OBJECT:
+ time.sleep(1)
+ loop += 1
+
+ # keep anonymous ACI for use 'read-search' aci in SEARCH test
+ ACI_ANONYMOUS = "(targetattr!=\"userPassword\")(version 3.0; acl \"Enable anonymous access\"; allow (read, search, compare) userdn=\"ldap:///anyone\";)"
+ mod = [(ldap.MOD_REPLACE, 'aci', ACI_ANONYMOUS)]
+ topology.master1.modify_s(SUFFIX, mod)
+ topology.master2.modify_s(SUFFIX, mod)
+
+ # add entries
+ for cpt in range(MAX_ENTRIES):
+ name = "%s%d" % (ENTRY_NAME, cpt)
+ mydn = "cn=%s,%s" % (name, SUFFIX)
+ topology.master1.add_s(Entry((mydn,
+ {'objectclass': "top person".split(),
+ 'sn': name,
+ 'cn': name})))
+ loop = 0
+ while loop <= 10:
+ try:
+ ent = topology.master2.getEntry(mydn, ldap.SCOPE_BASE, "(objectclass=*)")
+ break
+ except ldap.NO_SUCH_OBJECT:
+ time.sleep(1)
+ loop += 1
+
+def test_ticket47869_check(topology):
+ '''
+ On Master 1 and 2:
+ Bind as Directory Manager.
+ Search all specifying nscpEntryWsi in the attribute list.
+ Check nscpEntryWsi is returned.
+ On Master 1 and 2:
+ Bind as Bind Entry.
+ Search all specifying nscpEntryWsi in the attribute list.
+ Check nscpEntryWsi is not returned.
+ On Master 1 and 2:
+ Bind as anonymous.
+ Search all specifying nscpEntryWsi in the attribute list.
+ Check nscpEntryWsi is not returned.
+ '''
+ topology.master1.log.info("\n\n######################### CHECK nscpentrywsi ######################\n")
+
+ topology.master1.log.info("##### Master1: Bind as %s #####" % DN_DM)
+ topology.master1.simple_bind_s(DN_DM, PASSWORD)
+
+ topology.master1.log.info("Master1: Calling search_ext...")
+ msgid = topology.master1.search_ext(SUFFIX, ldap.SCOPE_SUBTREE, 'objectclass=*', ['nscpentrywsi'])
+ nscpentrywsicnt = 0
+ rtype, rdata, rmsgid = topology.master1.result2(msgid)
+ topology.master1.log.info("%d results" % len(rdata))
+
+ topology.master1.log.info("Results:")
+ for dn, attrs in rdata:
+ topology.master1.log.info("dn: %s" % dn)
+ if attrs.has_key('nscpentrywsi'):
+ nscpentrywsicnt += 1
+ topology.master1.log.info("Master1: count of nscpentrywsi: %d" % nscpentrywsicnt)
+
+ topology.master2.log.info("##### Master2: Bind as %s #####" % DN_DM)
+ topology.master2.simple_bind_s(DN_DM, PASSWORD)
+
+ topology.master2.log.info("Master2: Calling search_ext...")
+ msgid = topology.master2.search_ext(SUFFIX, ldap.SCOPE_SUBTREE, 'objectclass=*', ['nscpentrywsi'])
+ nscpentrywsicnt = 0
+ rtype, rdata, rmsgid = topology.master2.result2(msgid)
+ topology.master2.log.info("%d results" % len(rdata))
+
+ topology.master2.log.info("Results:")
+ for dn, attrs in rdata:
+ topology.master2.log.info("dn: %s" % dn)
+ if attrs.has_key('nscpentrywsi'):
+ nscpentrywsicnt += 1
+ topology.master2.log.info("Master2: count of nscpentrywsi: %d" % nscpentrywsicnt)
+
+ # bind as bind_entry
+ topology.master1.log.info("##### Master1: Bind as %s #####" % BIND_DN)
+ topology.master1.simple_bind_s(BIND_DN, BIND_PW)
+
+ topology.master1.log.info("Master1: Calling search_ext...")
+ msgid = topology.master1.search_ext(SUFFIX, ldap.SCOPE_SUBTREE, 'objectclass=*', ['nscpentrywsi'])
+ nscpentrywsicnt = 0
+ rtype, rdata, rmsgid = topology.master1.result2(msgid)
+ topology.master1.log.info("%d results" % len(rdata))
+
+ for dn, attrs in rdata:
+ if attrs.has_key('nscpentrywsi'):
+ nscpentrywsicnt += 1
+ assert nscpentrywsicnt == 0
+ topology.master1.log.info("Master1: count of nscpentrywsi: %d" % nscpentrywsicnt)
+
+ # bind as bind_entry
+ topology.master2.log.info("##### Master2: Bind as %s #####" % BIND_DN)
+ topology.master2.simple_bind_s(BIND_DN, BIND_PW)
+
+ topology.master2.log.info("Master2: Calling search_ext...")
+ msgid = topology.master2.search_ext(SUFFIX, ldap.SCOPE_SUBTREE, 'objectclass=*', ['nscpentrywsi'])
+ nscpentrywsicnt = 0
+ rtype, rdata, rmsgid = topology.master2.result2(msgid)
+ topology.master2.log.info("%d results" % len(rdata))
+
+ for dn, attrs in rdata:
+ if attrs.has_key('nscpentrywsi'):
+ nscpentrywsicnt += 1
+ assert nscpentrywsicnt == 0
+ topology.master2.log.info("Master2: count of nscpentrywsi: %d" % nscpentrywsicnt)
+
+ # bind as anonymous
+ topology.master1.log.info("##### Master1: Bind as anonymous #####")
+ topology.master1.simple_bind_s("", "")
+
+ topology.master1.log.info("Master1: Calling search_ext...")
+ msgid = topology.master1.search_ext(SUFFIX, ldap.SCOPE_SUBTREE, 'objectclass=*', ['nscpentrywsi'])
+ nscpentrywsicnt = 0
+ rtype, rdata, rmsgid = topology.master1.result2(msgid)
+ topology.master1.log.info("%d results" % len(rdata))
+
+ for dn, attrs in rdata:
+ if attrs.has_key('nscpentrywsi'):
+ nscpentrywsicnt += 1
+ assert nscpentrywsicnt == 0
+ topology.master1.log.info("Master1: count of nscpentrywsi: %d" % nscpentrywsicnt)
+
+ # bind as bind_entry
+ topology.master2.log.info("##### Master2: Bind as anonymous #####")
+ topology.master2.simple_bind_s("", "")
+
+ topology.master2.log.info("Master2: Calling search_ext...")
+ msgid = topology.master2.search_ext(SUFFIX, ldap.SCOPE_SUBTREE, 'objectclass=*', ['nscpentrywsi'])
+ nscpentrywsicnt = 0
+ rtype, rdata, rmsgid = topology.master2.result2(msgid)
+ topology.master2.log.info("%d results" % len(rdata))
+
+ for dn, attrs in rdata:
+ if attrs.has_key('nscpentrywsi'):
+ nscpentrywsicnt += 1
+ assert nscpentrywsicnt == 0
+ topology.master2.log.info("Master2: count of nscpentrywsi: %d" % nscpentrywsicnt)
+
+ topology.master1.log.info("##### ticket47869 was successfully verified. #####");
+
+def test_ticket47869_final(topology):
+ topology.master1.stop(timeout=10)
+ topology.master2.stop(timeout=10)
+
+def run_isolated():
+ '''
+ run_isolated is used to run these test cases independently of a test scheduler (xunit, py.test..)
+ To run isolated without py.test, you need to
+ - edit this file and comment '@pytest.fixture' line before 'topology' function.
+ - set the installation prefix
+ - run this program
+ '''
+ global installation1_prefix
+ global installation2_prefix
+ installation1_prefix = None
+ installation2_prefix = None
+
+ topo = topology(True)
+ test_ticket47869_init(topo)
+
+ test_ticket47869_check(topo)
+
+ test_ticket47869_final(topo)
+
+if __name__ == '__main__':
+ run_isolated()
+