# Authors: Karl MacMillan # # Copyright (C) 2006 Red Hat # see file 'COPYING' for use and warranty information # # 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; version 2 only # # 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, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # import unittest import sepolgen.refpolicy as refpolicy import sepolgen.access as access import selinux class TestIdSet(unittest.TestCase): def test_set_to_str(self): s = refpolicy.IdSet(["read", "write", "getattr"]) s = s.to_space_str().split(' ') s.sort() expected = "{ read write getattr }".split(' ') expected.sort() self.assertEqual(s, expected) s = refpolicy.IdSet() s.add("read") self.assertEqual(s.to_space_str(), "read") class TestXpermSet(unittest.TestCase): def test_init(self): """ Test that all atttributes are correctly initialized. """ s1 = refpolicy.XpermSet() self.assertEqual(s1.complement, False) self.assertEqual(s1.ranges, []) s2 = refpolicy.XpermSet(True) self.assertEqual(s2.complement, True) self.assertEqual(s2.ranges, []) def test_normalize_ranges(self): """ Test that ranges that are overlapping or neighboring are correctly merged into one range. """ s = refpolicy.XpermSet() s.ranges = [(1, 7), (5, 10), (100, 110), (102, 107), (200, 205), (205, 210), (300, 305), (306, 310), (400, 405), (407, 410), (500, 502), (504, 508), (500, 510)] s._XpermSet__normalize_ranges() i = 0 r = list(sorted(s.ranges)) while i < len(r) - 1: # check that range low bound is less than equal than the upper bound self.assertLessEqual(r[i][0], r[i][1]) # check that two ranges are not overlapping or neighboring self.assertGreater(r[i + 1][0] - r[i][1], 1) i += 1 def test_add(self): """ Test adding new values or ranges to the set. """ s = refpolicy.XpermSet() s.add(1, 7) s.add(5, 10) s.add(42) self.assertEqual(s.ranges, [(1,10), (42,42)]) def test_extend(self): """ Test adding ranges from another XpermSet object. """ a = refpolicy.XpermSet() a.add(1, 7) b = refpolicy.XpermSet() b.add(5, 10) a.extend(b) self.assertEqual(a.ranges, [(1,10)]) def test_to_string(self): """ Test printing the values to a string. """ a = refpolicy.XpermSet() a.complement = False self.assertEqual(a.to_string(), "") a.complement = True self.assertEqual(a.to_string(), "") a.add(1234) self.assertEqual(a.to_string(), "~ 1234") a.complement = False self.assertEqual(a.to_string(), "1234") a.add(2345) self.assertEqual(a.to_string(), "{ 1234 2345 }") a.complement = True self.assertEqual(a.to_string(), "~ { 1234 2345 }") a.add(42,64) self.assertEqual(a.to_string(), "~ { 42-64 1234 2345 }") a.complement = False self.assertEqual(a.to_string(), "{ 42-64 1234 2345 }") class TestSecurityContext(unittest.TestCase): def test_init(self): sc = refpolicy.SecurityContext() sc = refpolicy.SecurityContext("user_u:object_r:foo_t") def test_from_string(self): context = "user_u:object_r:foo_t" sc = refpolicy.SecurityContext() sc.from_string(context) self.assertEqual(sc.user, "user_u") self.assertEqual(sc.role, "object_r") self.assertEqual(sc.type, "foo_t") self.assertEqual(sc.level, None) if selinux.is_selinux_mls_enabled(): self.assertEqual(str(sc), context + ":s0") else: self.assertEqual(str(sc), context) self.assertEqual(sc.to_string(default_level="s1"), context + ":s1") context = "user_u:object_r:foo_t:s0-s0:c0-c255" sc = refpolicy.SecurityContext() sc.from_string(context) self.assertEqual(sc.user, "user_u") self.assertEqual(sc.role, "object_r") self.assertEqual(sc.type, "foo_t") self.assertEqual(sc.level, "s0-s0:c0-c255") self.assertEqual(str(sc), context) self.assertEqual(sc.to_string(), context) sc = refpolicy.SecurityContext() self.assertRaises(ValueError, sc.from_string, "abc") def test_equal(self): sc1 = refpolicy.SecurityContext("user_u:object_r:foo_t") sc2 = refpolicy.SecurityContext("user_u:object_r:foo_t") sc3 = refpolicy.SecurityContext("user_u:object_r:foo_t:s0") sc4 = refpolicy.SecurityContext("user_u:object_r:bar_t") self.assertEqual(sc1, sc2) self.assertNotEqual(sc1, sc3) self.assertNotEqual(sc1, sc4) class TestObjecClass(unittest.TestCase): def test_init(self): o = refpolicy.ObjectClass(name="file") self.assertEqual(o.name, "file") self.assertTrue(isinstance(o.perms, set)) class TestAVRule(unittest.TestCase): def test_init(self): a = refpolicy.AVRule() self.assertEqual(a.rule_type, a.ALLOW) self.assertTrue(isinstance(a.src_types, set)) self.assertTrue(isinstance(a.tgt_types, set)) self.assertTrue(isinstance(a.obj_classes, set)) self.assertTrue(isinstance(a.perms, set)) def test_to_string(self): a = refpolicy.AVRule() a.src_types.add("foo_t") a.tgt_types.add("bar_t") a.obj_classes.add("file") a.perms.add("read") self.assertEqual(a.to_string(), "allow foo_t bar_t:file read;") a.rule_type = a.DONTAUDIT a.src_types.add("user_t") a.tgt_types.add("user_home_t") a.obj_classes.add("lnk_file") a.perms.add("write") # This test might need to go because set ordering is not guaranteed a = a.to_string().split(' ') a.sort() b = "dontaudit { foo_t user_t } { user_home_t bar_t }:{ lnk_file file } { read write };".split(' ') b.sort() self.assertEqual(a, b) class TestAVExtRule(unittest.TestCase): def test_init(self): """ Test initialization of attributes """ a = refpolicy.AVExtRule() self.assertEqual(a.rule_type, a.ALLOWXPERM) self.assertIsInstance(a.src_types, set) self.assertIsInstance(a.tgt_types, set) self.assertIsInstance(a.obj_classes, set) self.assertIsNone(a.operation) self.assertIsInstance(a.xperms, refpolicy.XpermSet) def test_rule_type_str(self): """ Test strings returned by __rule_type_str() """ a = refpolicy.AVExtRule() self.assertEqual(a._AVExtRule__rule_type_str(), "allowxperm") a.rule_type = a.ALLOWXPERM self.assertEqual(a._AVExtRule__rule_type_str(), "allowxperm") a.rule_type = a.DONTAUDITXPERM self.assertEqual(a._AVExtRule__rule_type_str(), "dontauditxperm") a.rule_type = a.NEVERALLOWXPERM self.assertEqual(a._AVExtRule__rule_type_str(), "neverallowxperm") a.rule_type = a.AUDITALLOWXPERM self.assertEqual(a._AVExtRule__rule_type_str(), "auditallowxperm") a.rule_type = 42 self.assertIsNone(a._AVExtRule__rule_type_str()) def test_from_av(self): """ Test creating the rule from an access vector. """ av = access.AccessVector(["foo", "bar", "file", "ioctl"]) xp = refpolicy.XpermSet() av.xperms = { "ioctl": xp } a = refpolicy.AVExtRule() a.from_av(av, "ioctl") self.assertEqual(a.src_types, {"foo"}) self.assertEqual(a.tgt_types, {"bar"}) self.assertEqual(a.obj_classes, {"file"}) self.assertEqual(a.operation, "ioctl") self.assertIs(a.xperms, xp) def test_from_av_self(self): """ Test creating the rule from an access vector that has same source and target context. """ av = access.AccessVector(["foo", "foo", "file", "ioctl"]) xp = refpolicy.XpermSet() av.xperms = { "ioctl": xp } a = refpolicy.AVExtRule() a.from_av(av, "ioctl") self.assertEqual(a.src_types, {"foo"}) self.assertEqual(a.tgt_types, {"self"}) self.assertEqual(a.obj_classes, {"file"}) self.assertEqual(a.operation, "ioctl") self.assertIs(a.xperms, xp) def test_to_string(self): """ Test printing the rule to a string. """ a = refpolicy.AVExtRule() a._AVExtRule__rule_type_str = lambda: "first" a.src_types.to_space_str = lambda: "second" a.tgt_types.to_space_str = lambda: "third" a.obj_classes.to_space_str = lambda: "fourth" a.operation = "fifth" a.xperms.to_string = lambda: "seventh" self.assertEqual(a.to_string(), "first second third:fourth fifth seventh;") class TestTypeRule(unittest.TestCase): def test_init(self): a = refpolicy.TypeRule() self.assertEqual(a.rule_type, a.TYPE_TRANSITION) self.assertTrue(isinstance(a.src_types, set)) self.assertTrue(isinstance(a.tgt_types, set)) self.assertTrue(isinstance(a.obj_classes, set)) self.assertEqual(a.dest_type, "") def test_to_string(self): a = refpolicy.TypeRule() a.src_types.add("foo_t") a.tgt_types.add("bar_exec_t") a.obj_classes.add("process") a.dest_type = "bar_t" self.assertEqual(a.to_string(), "type_transition foo_t bar_exec_t:process bar_t;") class TestParseNode(unittest.TestCase): def test_walktree(self): # Construct a small tree h = refpolicy.Headers() a = refpolicy.AVRule() a.src_types.add("foo_t") a.tgt_types.add("bar_t") a.obj_classes.add("file") a.perms.add("read") ifcall = refpolicy.InterfaceCall(ifname="allow_foobar") ifcall.args.append("foo_t") ifcall.args.append("{ file dir }") i = refpolicy.Interface(name="foo") i.children.append(a) i.children.append(ifcall) h.children.append(i) a = refpolicy.AVRule() a.rule_type = a.DONTAUDIT a.src_types.add("user_t") a.tgt_types.add("user_home_t") a.obj_classes.add("lnk_file") a.perms.add("write") i = refpolicy.Interface(name="bar") i.children.append(a) h.children.append(i) class TestHeaders(unittest.TestCase): def test_iter(self): h = refpolicy.Headers() h.children.append(refpolicy.Interface(name="foo")) h.children.append(refpolicy.Interface(name="bar")) h.children.append(refpolicy.ClassMap("file", "read write")) i = 0 for node in h: i += 1 self.assertEqual(i, 3) i = 0 for node in h.interfaces(): i += 1 self.assertEqual(i, 2)