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|
# Unix SMB/CIFS implementation.
#
# Copyright (C) Bjoern Baumbach <bb@sernet.de> 2018
#
# based on group.py:
# Copyright (C) Michael Adam 2012
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
import os
import ldb
from samba.tests.samba_tool.base import SambaToolCmdTest
from samba import dsdb
from samba.ndr import ndr_unpack, ndr_pack
from samba.dcerpc import dnsp
class ComputerCmdTestCase(SambaToolCmdTest):
"""Tests for samba-tool computer subcommands"""
computers = []
samdb = None
def setUp(self):
super(ComputerCmdTestCase, self).setUp()
self.creds = "-U%s%%%s" % (os.environ["DC_USERNAME"], os.environ["DC_PASSWORD"])
self.samdb = self.getSamDB("-H", "ldap://%s" % os.environ["DC_SERVER"], self.creds)
# ips used to test --ip-address option
self.ipv4 = '10.10.10.10'
self.ipv6 = '2001:0db8:0a0b:12f0:0000:0000:0000:0001'
computer_basename = self.randomName().lower()
data = [
{
'name': computer_basename + 'cmp1',
'ip_address_list': [self.ipv4]
},
{
'name': computer_basename + 'cmp2',
'ip_address_list': [self.ipv6],
'service_principal_name_list': [
'host/' + computer_basename + 'SPN20',
],
},
{
'name': computer_basename + 'cmp3$',
'ip_address_list': [self.ipv4, self.ipv6],
'service_principal_name_list': [
'host/' + computer_basename + 'SPN30',
'host/' + computer_basename + 'SPN31',
],
},
{
'name': computer_basename + 'cmp4$',
},
]
self.computers = [self._randomComputer(base=item) for item in data]
# setup the 4 computers and ensure they are correct
for computer in self.computers:
(result, out, err) = self._create_computer(computer)
self.assertCmdSuccess(result, out, err)
self.assertNotIn(
"ERROR", err, "There shouldn't be any error message")
self.assertIn("Computer '%s' added successfully" %
computer["name"], out)
found = self._find_computer(computer["name"])
self.assertIsNotNone(found)
expectedname = computer["name"].rstrip('$')
expectedsamaccountname = computer["name"]
if not computer["name"].endswith('$'):
expectedsamaccountname = "%s$" % computer["name"]
self.assertEqual("%s" % found.get("name"), expectedname)
self.assertEqual("%s" % found.get("sAMAccountName"),
expectedsamaccountname)
self.assertEqual("%s" % found.get("description"),
computer["description"])
def tearDown(self):
super(ComputerCmdTestCase, self).tearDown()
# clean up all the left over computers, just in case
for computer in self.computers:
if self._find_computer(computer["name"]):
(result, out, err) = self.runsubcmd("computer", "delete",
"%s" % computer["name"])
self.assertCmdSuccess(result, out, err,
"Failed to delete computer '%s'" %
computer["name"])
def test_newcomputer_with_service_principal_name(self):
# Each computer should have correct servicePrincipalName as provided.
for computer in self.computers:
expected_names = computer.get('service_principal_name_list', [])
found = self._find_service_principal_name(computer['name'], expected_names)
self.assertTrue(found)
def test_newcomputer_with_dns_records(self):
# Each computer should have correct DNS record and ip address.
for computer in self.computers:
for ip_address in computer.get('ip_address_list', []):
found = self._find_dns_record(computer['name'], ip_address)
self.assertTrue(found)
# try to delete all the computers we just created
for computer in self.computers:
(result, out, err) = self.runsubcmd("computer", "delete",
"%s" % computer["name"])
self.assertCmdSuccess(result, out, err,
"Failed to delete computer '%s'" %
computer["name"])
found = self._find_computer(computer["name"])
self.assertIsNone(found,
"Deleted computer '%s' still exists" %
computer["name"])
# all DNS records should be gone
for computer in self.computers:
for ip_address in computer.get('ip_address_list', []):
found = self._find_dns_record(computer['name'], ip_address)
self.assertFalse(found)
def test_newcomputer(self):
"""This tests the "computer add" and "computer delete" commands"""
# try to create all the computers again, this should fail
for computer in self.computers:
(result, out, err) = self._create_computer(computer)
self.assertCmdFail(result, "Succeeded to add existing computer")
self.assertIn("already exists", err)
# try to delete all the computers we just added
for computer in self.computers:
(result, out, err) = self.runsubcmd("computer", "delete", "%s" %
computer["name"])
self.assertCmdSuccess(result, out, err,
"Failed to delete computer '%s'" %
computer["name"])
found = self._find_computer(computer["name"])
self.assertIsNone(found,
"Deleted computer '%s' still exists" %
computer["name"])
# test creating computers
for computer in self.computers:
(result, out, err) = self.runsubcmd(
"computer", "add", "%s" % computer["name"],
"--description=%s" % computer["description"])
self.assertCmdSuccess(result, out, err)
self.assertEqual(err, "", "There shouldn't be any error message")
self.assertIn("Computer '%s' added successfully" %
computer["name"], out)
found = self._find_computer(computer["name"])
expectedname = computer["name"].rstrip('$')
expectedsamaccountname = computer["name"]
if not computer["name"].endswith('$'):
expectedsamaccountname = "%s$" % computer["name"]
self.assertEqual("%s" % found.get("name"), expectedname)
self.assertEqual("%s" % found.get("sAMAccountName"),
expectedsamaccountname)
self.assertEqual("%s" % found.get("description"),
computer["description"])
def test_list(self):
(result, out, err) = self.runsubcmd("computer", "list")
self.assertCmdSuccess(result, out, err, "Error running list")
search_filter = ("(sAMAccountType=%u)" %
dsdb.ATYPE_WORKSTATION_TRUST)
computerlist = self.samdb.search(base=self.samdb.domain_dn(),
scope=ldb.SCOPE_SUBTREE,
expression=search_filter,
attrs=["samaccountname"])
self.assertTrue(len(computerlist) > 0, "no computers found in samdb")
for computerobj in computerlist:
name = computerobj.get("samaccountname", idx=0)
found = self.assertMatch(out, str(name),
"computer '%s' not found" % name)
def test_list_full_dn(self):
(result, out, err) = self.runsubcmd("computer", "list", "--full-dn")
self.assertCmdSuccess(result, out, err, "Error running list")
search_filter = ("(sAMAccountType=%u)" %
dsdb.ATYPE_WORKSTATION_TRUST)
computerlist = self.samdb.search(base=self.samdb.domain_dn(),
scope=ldb.SCOPE_SUBTREE,
expression=search_filter,
attrs=[])
self.assertTrue(len(computerlist) > 0, "no computers found in samdb")
for computerobj in computerlist:
name = computerobj.get("dn", idx=0)
found = self.assertMatch(out, str(name),
"computer '%s' not found" % name)
def test_list_base_dn(self):
base_dn = str(self.samdb.domain_dn())
(result, out, err) = self.runsubcmd("computer", "list", "-b", base_dn)
self.assertCmdSuccess(result, out, err, "Error running list")
search_filter = ("(sAMAccountType=%u)" %
dsdb.ATYPE_WORKSTATION_TRUST)
computerlist = self.samdb.search(base=base_dn,
scope=ldb.SCOPE_SUBTREE,
expression=search_filter,
attrs=["name"])
self.assertTrue(len(computerlist) > 0, "no computers found in samdb")
for computerobj in computerlist:
name = computerobj.get("name", idx=0)
found = self.assertMatch(out, str(name),
"computer '%s' not found" % name)
def test_move(self):
parentou = self._randomOU({"name": "parentOU"})
(result, out, err) = self._create_ou(parentou)
self.assertCmdSuccess(result, out, err)
for computer in self.computers:
olddn = self._find_computer(computer["name"]).get("dn")
(result, out, err) = self.runsubcmd("computer", "move",
"%s" % computer["name"],
"OU=%s" % parentou["name"])
self.assertCmdSuccess(result, out, err,
"Failed to move computer '%s'" %
computer["name"])
self.assertEqual(err, "", "There shouldn't be any error message")
self.assertIn('Moved computer "%s"' % computer["name"], out)
found = self._find_computer(computer["name"])
self.assertNotEqual(found.get("dn"), olddn,
("Moved computer '%s' still exists with the "
"same dn" % computer["name"]))
computername = computer["name"].rstrip('$')
newexpecteddn = ldb.Dn(self.samdb,
"CN=%s,OU=%s,%s" %
(computername, parentou["name"],
self.samdb.domain_dn()))
self.assertEqual(found.get("dn"), newexpecteddn,
"Moved computer '%s' does not exist" %
computer["name"])
(result, out, err) = self.runsubcmd("computer", "move",
"%s" % computer["name"],
"%s" % olddn.parent())
self.assertCmdSuccess(result, out, err,
"Failed to move computer '%s'" %
computer["name"])
(result, out, err) = self.runsubcmd("ou", "delete",
"OU=%s" % parentou["name"])
self.assertCmdSuccess(result, out, err,
"Failed to delete ou '%s'" % parentou["name"])
def _randomComputer(self, base={}):
"""create a computer with random attribute values, you can specify base
attributes"""
computer = {
"name": self.randomName(),
"description": self.randomName(count=100),
}
computer.update(base)
return computer
def _randomOU(self, base={}):
"""create an ou with random attribute values, you can specify base
attributes"""
ou = {
"name": self.randomName(),
"description": self.randomName(count=100),
}
ou.update(base)
return ou
def _create_computer(self, computer):
args = '{0} {1} --description={2}'.format(
computer['name'], self.creds, computer["description"])
for ip_address in computer.get('ip_address_list', []):
args += ' --ip-address={0}'.format(ip_address)
for service_principal_name in computer.get('service_principal_name_list', []):
args += ' --service-principal-name={0}'.format(service_principal_name)
args = args.split()
return self.runsubcmd('computer', 'add', *args)
def _create_ou(self, ou):
return self.runsubcmd("ou", "add", "OU=%s" % ou["name"],
"--description=%s" % ou["description"])
def _find_computer(self, name):
samaccountname = name
if not name.endswith('$'):
samaccountname = "%s$" % name
search_filter = ("(&(sAMAccountName=%s)(objectCategory=%s,%s))" %
(ldb.binary_encode(samaccountname),
"CN=Computer,CN=Schema,CN=Configuration",
self.samdb.domain_dn()))
computerlist = self.samdb.search(base=self.samdb.domain_dn(),
scope=ldb.SCOPE_SUBTREE,
expression=search_filter)
if computerlist:
return computerlist[0]
else:
return None
def _find_dns_record(self, name, ip_address):
name = name.rstrip('$') # computername
records = self.samdb.search(
base="DC=DomainDnsZones,{0}".format(self.samdb.get_default_basedn()),
scope=ldb.SCOPE_SUBTREE,
expression="(&(objectClass=dnsNode)(name={0}))".format(name),
attrs=['dnsRecord', 'dNSTombstoned'])
# unpack data and compare
for record in records:
if 'dNSTombstoned' in record and str(record['dNSTombstoned']) == 'TRUE':
# if a record is dNSTombstoned, ignore it.
continue
for dns_record_bin in record['dnsRecord']:
dns_record_obj = ndr_unpack(dnsp.DnssrvRpcRecord, dns_record_bin)
ip = str(dns_record_obj.data)
if str(ip) == str(ip_address):
return True
return False
def _find_service_principal_name(self, name, expected_service_principal_names):
"""Find all servicePrincipalName values and compare with expected_service_principal_names"""
samaccountname = name.strip('$') + '$'
search_filter = ("(&(sAMAccountName=%s)(objectCategory=%s,%s))" %
(ldb.binary_encode(samaccountname),
"CN=Computer,CN=Schema,CN=Configuration",
self.samdb.domain_dn()))
computer_list = self.samdb.search(
base=self.samdb.domain_dn(),
scope=ldb.SCOPE_SUBTREE,
expression=search_filter,
attrs=['servicePrincipalName'])
names = set()
for computer in computer_list:
for name in computer.get('servicePrincipalName', []):
names.add(str(name))
return names == set(expected_service_principal_names)
|
