# Copyright 2014, Tresys Technology, LLC
#
# This file is part of SETools.
#
# SETools 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 2 of the License, or
# (at your option) any later version.
#
# SETools 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 SETools. If not, see <http://www.gnu.org/licenses/>.
#
import unittest
from setools import SELinuxPolicy
from setools.mlsrulequery import MLSRuleQuery
from setools.policyrep.rule import RuleNotConditional
# Note: the test policy has been written assuming range_transition
# statements could have attributes. However, range_transition
# statements are always expanded, so the below unit tests
# have been adjusted to this fact (hence a "FAIL" in one of the
# expected type names)
class MLSRuleQueryTest(unittest.TestCase):
def setUp(self):
self.p = SELinuxPolicy("tests/mlsrulequery.conf")
def test_000_unset(self):
"""MLS rule query with no criteria."""
# query with no parameters gets all MLS rules.
rules = sorted(self.p.mlsrules())
q = MLSRuleQuery(self.p)
q_rules = sorted(q.results())
self.assertListEqual(rules, q_rules)
def test_001_source_direct(self):
"""MLS rule query with exact, direct, source match."""
q = MLSRuleQuery(
self.p, source="test1s", source_regex=False)
r = sorted(q.results())
self.assertEqual(len(r), 1)
self.assertEqual(r[0].ruletype, "range_transition")
self.assertEqual(r[0].source, "test1s")
self.assertEqual(r[0].target, "test1t")
self.assertEqual(r[0].tclass, "infoflow")
self.assertEqual(r[0].default, "s0")
self.assertRaises(RuleNotConditional, getattr, r[0], "conditional")
def test_003_source_direct_regex(self):
"""MLS rule query with regex, direct, source match."""
q = MLSRuleQuery(
self.p, source="test3(s|aS)", source_regex=True)
r = sorted(q.results())
self.assertEqual(len(r), 2)
self.assertEqual(r[0].ruletype, "range_transition")
self.assertEqual(r[0].source, "test3s")
self.assertEqual(r[0].target, "test3t")
self.assertEqual(r[0].tclass, "infoflow")
self.assertEqual(r[0].default, "s1")
self.assertRaises(RuleNotConditional, getattr, r[0], "conditional")
self.assertEqual(r[1].ruletype, "range_transition")
self.assertEqual(r[1].source, "test3s")
self.assertEqual(r[1].target, "test3t")
self.assertEqual(r[1].tclass, "infoflow2")
self.assertEqual(r[1].default, "s2")
self.assertRaises(RuleNotConditional, getattr, r[1], "conditional")
def test_010_target_direct(self):
"""MLS rule query with exact, direct, target match."""
q = MLSRuleQuery(
self.p, target="test10t", target_regex=False)
r = sorted(q.results())
self.assertEqual(len(r), 2)
self.assertEqual(r[0].ruletype, "range_transition")
self.assertEqual(r[0].source, "test10s")
self.assertEqual(r[0].target, "test10t")
self.assertEqual(r[0].tclass, "infoflow")
self.assertEqual(r[0].default, "s0")
self.assertRaises(RuleNotConditional, getattr, r[0], "conditional")
self.assertEqual(r[1].ruletype, "range_transition")
self.assertEqual(r[1].source, "test10s")
self.assertEqual(r[1].target, "test10t")
self.assertEqual(r[1].tclass, "infoflow2")
self.assertEqual(r[1].default, "s1")
self.assertRaises(RuleNotConditional, getattr, r[1], "conditional")
def test_012_target_direct_regex(self):
"""MLS rule query with regex, direct, target match."""
q = MLSRuleQuery(
self.p, target="test12a.*", target_regex=True)
r = sorted(q.results())
self.assertEqual(len(r), 1)
self.assertEqual(r[0].ruletype, "range_transition")
self.assertEqual(r[0].source, "test12s")
self.assertEqual(r[0].target, "test12aFAIL")
self.assertEqual(r[0].tclass, "infoflow")
self.assertEqual(r[0].default, "s2")
self.assertRaises(RuleNotConditional, getattr, r[0], "conditional")
def test_020_class(self):
"""MLS rule query with exact object class match."""
q = MLSRuleQuery(self.p, tclass="infoflow7", tclass_regex=False)
r = sorted(q.results())
self.assertEqual(len(r), 1)
self.assertEqual(r[0].ruletype, "range_transition")
self.assertEqual(r[0].source, "test20")
self.assertEqual(r[0].target, "test20")
self.assertEqual(r[0].tclass, "infoflow7")
self.assertEqual(r[0].default, "s1")
self.assertRaises(RuleNotConditional, getattr, r[0], "conditional")
def test_021_class_list(self):
"""MLS rule query with object class list match."""
q = MLSRuleQuery(
self.p, tclass=["infoflow3", "infoflow4"], tclass_regex=False)
r = sorted(q.results())
self.assertEqual(len(r), 2)
# verify first rule
self.assertEqual(r[0].ruletype, "range_transition")
self.assertEqual(r[0].source, "test21")
self.assertEqual(r[0].target, "test21")
self.assertEqual(r[0].tclass, "infoflow3")
self.assertEqual(r[0].default, "s2")
self.assertRaises(RuleNotConditional, getattr, r[0], "conditional")
# verify second rule
self.assertEqual(r[1].ruletype, "range_transition")
self.assertEqual(r[1].source, "test21")
self.assertEqual(r[1].target, "test21")
self.assertEqual(r[1].tclass, "infoflow4")
self.assertEqual(r[1].default, "s1")
self.assertRaises(RuleNotConditional, getattr, r[1], "conditional")
def test_022_class_regex(self):
"""MLS rule query with object class regex match."""
q = MLSRuleQuery(self.p, tclass="infoflow(5|6)", tclass_regex=True)
r = sorted(q.results())
self.assertEqual(len(r), 2)
# verify first rule
self.assertEqual(r[0].ruletype, "range_transition")
self.assertEqual(r[0].source, "test22")
self.assertEqual(r[0].target, "test22")
self.assertEqual(r[0].tclass, "infoflow5")
self.assertEqual(r[0].default, "s1")
self.assertRaises(RuleNotConditional, getattr, r[0], "conditional")
# verify second rule
self.assertEqual(r[1].ruletype, "range_transition")
self.assertEqual(r[1].source, "test22")
self.assertEqual(r[1].target, "test22")
self.assertEqual(r[1].tclass, "infoflow6")
self.assertEqual(r[1].default, "s2")
self.assertRaises(RuleNotConditional, getattr, r[1], "conditional")