import datetime import pytest import pytz from stix2patterns.exceptions import ParseException import stix2 from stix2.pattern_visitor import create_pattern_object import stix2.utils def test_create_comparison_expression(): exp = stix2.EqualityComparisonExpression( "file:hashes.'SHA-256'", stix2.HashConstant("aec070645fe53ee3b3763059376134f058cc337247c978add178b6ccdfb0019f", "SHA-256"), ) # noqa assert str(exp) == "file:hashes.'SHA-256' = 'aec070645fe53ee3b3763059376134f058cc337247c978add178b6ccdfb0019f'" def test_boolean_expression(): exp1 = stix2.MatchesComparisonExpression( "email-message:from_ref.value", stix2.StringConstant(".+\\@example\\.com$"), ) exp2 = stix2.MatchesComparisonExpression( "email-message:body_multipart[*].body_raw_ref.name", stix2.StringConstant("^Final Report.+\\.exe$"), ) exp = stix2.AndBooleanExpression([exp1, exp2]) assert str(exp) == "email-message:from_ref.value MATCHES '.+\\\\@example\\\\.com$' AND email-message:body_multipart[*].body_raw_ref.name MATCHES '^Final Report.+\\\\.exe$'" # noqa def test_boolean_expression_with_parentheses(): exp1 = stix2.MatchesComparisonExpression( stix2.ObjectPath( "email-message", [ stix2.ReferenceObjectPathComponent("from_ref"), stix2.BasicObjectPathComponent("value", False), ], ), stix2.StringConstant(".+\\@example\\.com$"), ) exp2 = stix2.MatchesComparisonExpression( "email-message:body_multipart[*].body_raw_ref.name", stix2.StringConstant("^Final Report.+\\.exe$"), ) exp = stix2.ParentheticalExpression(stix2.AndBooleanExpression([exp1, exp2])) assert str(exp) == "(email-message:from_ref.value MATCHES '.+\\\\@example\\\\.com$' AND email-message:body_multipart[*].body_raw_ref.name MATCHES '^Final Report.+\\\\.exe$')" # noqa def test_hash_followed_by_registryKey_expression_python_constant(): hash_exp = stix2.EqualityComparisonExpression( "file:hashes.MD5", stix2.HashConstant("79054025255fb1a26e4bc422aef54eb4", "MD5"), ) o_exp1 = stix2.ObservationExpression(hash_exp) reg_exp = stix2.EqualityComparisonExpression( stix2.ObjectPath("windows-registry-key", ["key"]), stix2.StringConstant("HKEY_LOCAL_MACHINE\\foo\\bar"), ) o_exp2 = stix2.ObservationExpression(reg_exp) fb_exp = stix2.FollowedByObservationExpression([o_exp1, o_exp2]) para_exp = stix2.ParentheticalExpression(fb_exp) qual_exp = stix2.WithinQualifier(300) exp = stix2.QualifiedObservationExpression(para_exp, qual_exp) assert str(exp) == "([file:hashes.MD5 = '79054025255fb1a26e4bc422aef54eb4'] FOLLOWEDBY [windows-registry-key:key = 'HKEY_LOCAL_MACHINE\\\\foo\\\\bar']) WITHIN 300 SECONDS" # noqa def test_hash_followed_by_registryKey_expression(): hash_exp = stix2.EqualityComparisonExpression( "file:hashes.MD5", stix2.HashConstant("79054025255fb1a26e4bc422aef54eb4", "MD5"), ) o_exp1 = stix2.ObservationExpression(hash_exp) reg_exp = stix2.EqualityComparisonExpression( stix2.ObjectPath("windows-registry-key", ["key"]), stix2.StringConstant("HKEY_LOCAL_MACHINE\\foo\\bar"), ) o_exp2 = stix2.ObservationExpression(reg_exp) fb_exp = stix2.FollowedByObservationExpression([o_exp1, o_exp2]) para_exp = stix2.ParentheticalExpression(fb_exp) qual_exp = stix2.WithinQualifier(stix2.IntegerConstant(300)) exp = stix2.QualifiedObservationExpression(para_exp, qual_exp) assert str(exp) == "([file:hashes.MD5 = '79054025255fb1a26e4bc422aef54eb4'] FOLLOWEDBY [windows-registry-key:key = 'HKEY_LOCAL_MACHINE\\\\foo\\\\bar']) WITHIN 300 SECONDS" # noqa def test_file_observable_expression(): exp1 = stix2.EqualityComparisonExpression( "file:hashes.'SHA-256'", stix2.HashConstant( "aec070645fe53ee3b3763059376134f058cc337247c978add178b6ccdfb0019f", 'SHA-256', ), ) exp2 = stix2.EqualityComparisonExpression("file:mime_type", stix2.StringConstant("application/x-pdf")) bool_exp = stix2.ObservationExpression(stix2.AndBooleanExpression([exp1, exp2])) assert str(bool_exp) == "[file:hashes.'SHA-256' = 'aec070645fe53ee3b3763059376134f058cc337247c978add178b6ccdfb0019f' AND file:mime_type = 'application/x-pdf']" # noqa @pytest.mark.parametrize( "observation_class, op", [ (stix2.AndObservationExpression, 'AND'), (stix2.OrObservationExpression, 'OR'), ], ) def test_multiple_file_observable_expression(observation_class, op): exp1 = stix2.EqualityComparisonExpression( "file:hashes.'SHA-256'", stix2.HashConstant( "bf07a7fbb825fc0aae7bf4a1177b2b31fcf8a3feeaf7092761e18c859ee52a9c", 'SHA-256', ), ) exp2 = stix2.EqualityComparisonExpression( "file:hashes.MD5", stix2.HashConstant("cead3f77f6cda6ec00f57d76c9a6879f", "MD5"), ) bool1_exp = stix2.OrBooleanExpression([exp1, exp2]) exp3 = stix2.EqualityComparisonExpression( "file:hashes.'SHA-256'", stix2.HashConstant( "aec070645fe53ee3b3763059376134f058cc337247c978add178b6ccdfb0019f", 'SHA-256', ), ) op1_exp = stix2.ObservationExpression(bool1_exp) op2_exp = stix2.ObservationExpression(exp3) exp = observation_class([op1_exp, op2_exp]) assert str(exp) == "[file:hashes.'SHA-256' = 'bf07a7fbb825fc0aae7bf4a1177b2b31fcf8a3feeaf7092761e18c859ee52a9c' OR file:hashes.MD5 = 'cead3f77f6cda6ec00f57d76c9a6879f'] {} [file:hashes.'SHA-256' = 'aec070645fe53ee3b3763059376134f058cc337247c978add178b6ccdfb0019f']".format(op) # noqa def test_root_types(): ast = stix2.ObservationExpression( stix2.AndBooleanExpression( [ stix2.ParentheticalExpression( stix2.OrBooleanExpression([ stix2.EqualityComparisonExpression("a:b", stix2.StringConstant("1")), stix2.EqualityComparisonExpression("b:c", stix2.StringConstant("2")), ]), ), stix2.EqualityComparisonExpression(u"b:d", stix2.StringConstant("3")), ], ), ) assert str(ast) == "[(a:b = '1' OR b:c = '2') AND b:d = '3']" def test_artifact_payload(): exp1 = stix2.EqualityComparisonExpression( "artifact:mime_type", "application/vnd.tcpdump.pcap", ) exp2 = stix2.MatchesComparisonExpression( "artifact:payload_bin", stix2.StringConstant("\\xd4\\xc3\\xb2\\xa1\\x02\\x00\\x04\\x00"), ) and_exp = stix2.ObservationExpression(stix2.AndBooleanExpression([exp1, exp2])) assert str(and_exp) == "[artifact:mime_type = 'application/vnd.tcpdump.pcap' AND artifact:payload_bin MATCHES '\\\\xd4\\\\xc3\\\\xb2\\\\xa1\\\\x02\\\\x00\\\\x04\\\\x00']" # noqa def test_greater_than_python_constant(): exp1 = stix2.GreaterThanComparisonExpression("file:extensions.'windows-pebinary-ext'.sections[*].entropy", 7.0) exp = stix2.ObservationExpression(exp1) assert str(exp) == "[file:extensions.'windows-pebinary-ext'.sections[*].entropy > 7.0]" def test_greater_than(): exp1 = stix2.GreaterThanComparisonExpression( "file:extensions.'windows-pebinary-ext'.sections[*].entropy", stix2.FloatConstant(7.0), ) exp = stix2.ObservationExpression(exp1) assert str(exp) == "[file:extensions.'windows-pebinary-ext'.sections[*].entropy > 7.0]" def test_parsing_greater_than(): patt_obj = create_pattern_object("[file:extensions.'windows-pebinary-ext'.sections[*].entropy > 7.478901]", version="2.1") assert str(patt_obj) == "[file:extensions.'windows-pebinary-ext'.sections[*].entropy > 7.478901]" def test_less_than(): exp = stix2.LessThanComparisonExpression("file:size", 1024) assert str(exp) == "file:size < 1024" def test_parsing_less_than(): patt_obj = create_pattern_object("[file:size < 1024]", version="2.1") assert str(patt_obj) == "[file:size < 1024]" def test_greater_than_or_equal(): exp = stix2.GreaterThanEqualComparisonExpression( "file:size", 1024, ) assert str(exp) == "file:size >= 1024" def test_parsing_greater_than_or_equal(): patt_obj = create_pattern_object("[file:size >= 1024]", version="2.1") assert str(patt_obj) == "[file:size >= 1024]" def test_less_than_or_equal(): exp = stix2.LessThanEqualComparisonExpression( "file:size", 1024, ) assert str(exp) == "file:size <= 1024" def test_parsing_less_than_or_equal(): patt_obj = create_pattern_object("[file:size <= 1024]", version="2.1") assert str(patt_obj) == "[file:size <= 1024]" def test_parsing_issubset(): patt_obj = create_pattern_object("[network-traffic:dst_ref.value ISSUBSET '2001:0db8:dead:beef:0000:0000:0000:0000/64']", version="2.1") assert str(patt_obj) == "[network-traffic:dst_ref.value ISSUBSET '2001:0db8:dead:beef:0000:0000:0000:0000/64']" def test_parsing_issuperset(): patt_obj = create_pattern_object("[network-traffic:dst_ref.value ISSUPERSET '2001:0db8:dead:beef:0000:0000:0000:0000/64']", version="2.1") assert str(patt_obj) == "[network-traffic:dst_ref.value ISSUPERSET '2001:0db8:dead:beef:0000:0000:0000:0000/64']" def test_parsing_like(): patt_obj = create_pattern_object("[directory:path LIKE 'C:\\\\Windows\\\\%\\\\foo']", version="2.1") assert str(patt_obj) == "[directory:path LIKE 'C:\\\\Windows\\\\%\\\\foo']" def test_parsing_match(): patt_obj = create_pattern_object("[process:command_line MATCHES '^.+>-add GlobalSign.cer -c -s -r localMachine Root$'] FOLLOWEDBY [process:command_line MATCHES '^.+>-add GlobalSign.cer -c -s -r localMachineTrustedPublisher$'] WITHIN 300 SECONDS", version="2.1") # noqa assert str(patt_obj) == "[process:command_line MATCHES '^.+>-add GlobalSign.cer -c -s -r localMachine Root$'] FOLLOWEDBY [process:command_line MATCHES '^.+>-add GlobalSign.cer -c -s -r localMachineTrustedPublisher$'] WITHIN 300 SECONDS" # noqa def test_parsing_followed_by(): patt_obj = create_pattern_object("([file:hashes.MD5 = '79054025255fb1a26e4bc422aef54eb4'] FOLLOWEDBY [windows-registry-key:key = 'HKEY_LOCAL_MACHINE\\\\foo\\\\bar']) WITHIN 300 SECONDS", version="2.1") # noqa assert str(patt_obj) == "([file:hashes.MD5 = '79054025255fb1a26e4bc422aef54eb4'] FOLLOWEDBY [windows-registry-key:key = 'HKEY_LOCAL_MACHINE\\\\foo\\\\bar']) WITHIN 300 SECONDS" # noqa def test_not(): exp = stix2.LessThanComparisonExpression( "file:size", 1024, negated=True, ) assert str(exp) == "file:size NOT < 1024" def test_and_observable_expression(): exp1 = stix2.AndBooleanExpression([ stix2.EqualityComparisonExpression( "user-account:account_type", "unix", ), stix2.EqualityComparisonExpression( "user-account:user_id", stix2.StringConstant("1007"), ), stix2.EqualityComparisonExpression( "user-account:account_login", "Peter", ), ]) exp2 = stix2.AndBooleanExpression([ stix2.EqualityComparisonExpression( "user-account:account_type", "unix", ), stix2.EqualityComparisonExpression( "user-account:user_id", stix2.StringConstant("1008"), ), stix2.EqualityComparisonExpression( "user-account:account_login", "Paul", ), ]) exp3 = stix2.AndBooleanExpression([ stix2.EqualityComparisonExpression( "user-account:account_type", "unix", ), stix2.EqualityComparisonExpression( "user-account:user_id", stix2.StringConstant("1009"), ), stix2.EqualityComparisonExpression( "user-account:account_login", "Mary", ), ]) exp = stix2.AndObservationExpression([ stix2.ObservationExpression(exp1), stix2.ObservationExpression(exp2), stix2.ObservationExpression(exp3), ]) assert str(exp) == "[user-account:account_type = 'unix' AND user-account:user_id = '1007' AND user-account:account_login = 'Peter'] AND [user-account:account_type = 'unix' AND user-account:user_id = '1008' AND user-account:account_login = 'Paul'] AND [user-account:account_type = 'unix' AND user-account:user_id = '1009' AND user-account:account_login = 'Mary']" # noqa def test_parsing_and_observable_expression(): exp = create_pattern_object("[user-account:account_type = 'unix' AND user-account:user_id = '1007' AND user-account:account_login = 'Peter'] AND [user-account:account_type = 'unix' AND user-account:user_id = '1008' AND user-account:account_login = 'Paul']", version="2.1") # noqa assert str(exp) == "[user-account:account_type = 'unix' AND user-account:user_id = '1007' AND user-account:account_login = 'Peter'] AND [user-account:account_type = 'unix' AND user-account:user_id = '1008' AND user-account:account_login = 'Paul']" # noqa def test_or_observable_expression(): exp1 = stix2.AndBooleanExpression([ stix2.EqualityComparisonExpression( "user-account:account_type", "unix", ), stix2.EqualityComparisonExpression( "user-account:user_id", stix2.StringConstant("1007"), ), stix2.EqualityComparisonExpression( "user-account:account_login", "Peter", ), ]) exp2 = stix2.AndBooleanExpression([ stix2.EqualityComparisonExpression( "user-account:account_type", "unix", ), stix2.EqualityComparisonExpression( "user-account:user_id", stix2.StringConstant("1008"), ), stix2.EqualityComparisonExpression( "user-account:account_login", "Paul", ), ]) exp3 = stix2.AndBooleanExpression([ stix2.EqualityComparisonExpression( "user-account:account_type", "unix", ), stix2.EqualityComparisonExpression( "user-account:user_id", stix2.StringConstant("1009"), ), stix2.EqualityComparisonExpression( "user-account:account_login", "Mary", ), ]) exp = stix2.OrObservationExpression([ stix2.ObservationExpression(exp1), stix2.ObservationExpression(exp2), stix2.ObservationExpression(exp3), ]) assert str(exp) == "[user-account:account_type = 'unix' AND user-account:user_id = '1007' AND user-account:account_login = 'Peter'] OR [user-account:account_type = 'unix' AND user-account:user_id = '1008' AND user-account:account_login = 'Paul'] OR [user-account:account_type = 'unix' AND user-account:user_id = '1009' AND user-account:account_login = 'Mary']" # noqa def test_parsing_or_observable_expression(): exp = create_pattern_object("[user-account:account_type = 'unix' AND user-account:user_id = '1007' AND user-account:account_login = 'Peter'] OR [user-account:account_type = 'unix' AND user-account:user_id = '1008' AND user-account:account_login = 'Paul']", version="2.1") # noqa assert str(exp) == "[user-account:account_type = 'unix' AND user-account:user_id = '1007' AND user-account:account_login = 'Peter'] OR [user-account:account_type = 'unix' AND user-account:user_id = '1008' AND user-account:account_login = 'Paul']" # noqa def test_invalid_and_comparison_expression(): with pytest.raises(ValueError): stix2.AndBooleanExpression([ stix2.EqualityComparisonExpression( "user-account:display_name", "admin", ), stix2.EqualityComparisonExpression( "email-addr:display_name", stix2.StringConstant("admin"), ), ]) @pytest.mark.parametrize( "pattern, root_types", [ ("[a:a=1 AND a:b=1]", {"a"}), ("[a:a=1 AND a:b=1 OR c:d=1]", {"a", "c"}), ("[a:a=1 AND (a:b=1 OR c:d=1)]", {"a"}), ("[(a:a=1 OR b:a=1) AND (b:a=1 OR c:c=1)]", {"b"}), ("[(a:a=1 AND a:b=1) OR (b:a=1 AND b:c=1)]", {"a", "b"}), ], ) def test_comparison_expression_root_types(pattern, root_types): ast = create_pattern_object(pattern) assert ast.operand.root_types == root_types @pytest.mark.parametrize( "pattern", [ "[a:b=1 AND b:c=1]", "[a:b=1 AND (b:c=1 OR c:d=1)]", "[(a:b=1 OR b:c=1) AND (c:d=1 OR d:e=1)]", "[(a:b=1 AND b:c=1) OR (b:c=1 AND c:d=1)]", ], ) def test_comparison_expression_root_types_error(pattern): with pytest.raises(ValueError): create_pattern_object(pattern) def test_hex(): exp_and = stix2.AndBooleanExpression([ stix2.EqualityComparisonExpression( "file:mime_type", "image/bmp", ), stix2.EqualityComparisonExpression( "file:magic_number_hex", stix2.HexConstant("ffd8"), ), ]) exp = stix2.ObservationExpression(exp_and) assert str(exp) == "[file:mime_type = 'image/bmp' AND file:magic_number_hex = h'ffd8']" def test_parsing_hex(): patt_obj = create_pattern_object("[file:magic_number_hex = h'ffd8']", version="2.1") assert str(patt_obj) == "[file:magic_number_hex = h'ffd8']" def test_multiple_qualifiers(): exp_and = stix2.AndBooleanExpression([ stix2.EqualityComparisonExpression( "network-traffic:dst_ref.type", "domain-name", ), stix2.EqualityComparisonExpression( "network-traffic:dst_ref.value", "example.com", ), ]) exp_ob = stix2.ObservationExpression(exp_and) qual_rep = stix2.RepeatQualifier(5) qual_within = stix2.WithinQualifier(stix2.IntegerConstant(1800)) exp = stix2.QualifiedObservationExpression(stix2.QualifiedObservationExpression(exp_ob, qual_rep), qual_within) assert str(exp) == "[network-traffic:dst_ref.type = 'domain-name' AND network-traffic:dst_ref.value = 'example.com'] REPEATS 5 TIMES WITHIN 1800 SECONDS" # noqa def test_set_op(): exp = stix2.ObservationExpression( stix2.IsSubsetComparisonExpression( "network-traffic:dst_ref.value", "2001:0db8:dead:beef:0000:0000:0000:0000/64", ), ) assert str(exp) == "[network-traffic:dst_ref.value ISSUBSET '2001:0db8:dead:beef:0000:0000:0000:0000/64']" def test_timestamp(): ts = stix2.TimestampConstant('2014-01-13T07:03:17Z') assert str(ts) == "t'2014-01-13T07:03:17Z'" def test_boolean(): exp = stix2.EqualityComparisonExpression( "email-message:is_multipart", True, ) assert str(exp) == "email-message:is_multipart = true" def test_binary(): const = stix2.BinaryConstant("dGhpcyBpcyBhIHRlc3Q=") exp = stix2.EqualityComparisonExpression( "artifact:payload_bin", const, ) assert str(exp) == "artifact:payload_bin = b'dGhpcyBpcyBhIHRlc3Q='" def test_parsing_binary(): patt_obj = create_pattern_object("[artifact:payload_bin = b'dGhpcyBpcyBhIHRlc3Q=']", version="2.1") assert str(patt_obj) == "[artifact:payload_bin = b'dGhpcyBpcyBhIHRlc3Q=']" def test_list(): exp = stix2.InComparisonExpression( "process:name", ['proccy', 'proximus', 'badproc'], ) assert str(exp) == "process:name IN ('proccy', 'proximus', 'badproc')" def test_list2(): # alternate way to construct an "IN" Comparison Expression exp = stix2.EqualityComparisonExpression( "process:name", ['proccy', 'proximus', 'badproc'], ) assert str(exp) == "process:name IN ('proccy', 'proximus', 'badproc')" def test_invalid_constant_type(): with pytest.raises(ValueError): stix2.EqualityComparisonExpression( "artifact:payload_bin", {'foo': 'bar'}, ) def test_invalid_integer_constant(): with pytest.raises(ValueError): stix2.IntegerConstant('foo') def test_invalid_timestamp_constant(): with pytest.raises(ValueError): stix2.TimestampConstant('foo') def test_invalid_float_constant(): with pytest.raises(ValueError): stix2.FloatConstant('foo') @pytest.mark.parametrize( "data, result", [ (True, True), (False, False), ('True', True), ('False', False), ('true', True), ('false', False), ('t', True), ('f', False), ('T', True), ('F', False), (1, True), (0, False), ], ) def test_boolean_constant(data, result): boolean = stix2.BooleanConstant(data) assert boolean.value == result def test_invalid_boolean_constant(): with pytest.raises(ValueError): stix2.BooleanConstant('foo') @pytest.mark.parametrize( "hashtype, data", [ ('MD5', 'zzz'), ('SSDEEP', 'zzz=='), ], ) def test_invalid_hash_constant(hashtype, data): with pytest.raises(ValueError): stix2.HashConstant(data, hashtype) def test_invalid_hex_constant(): with pytest.raises(ValueError): stix2.HexConstant('mm') def test_invalid_binary_constant(): with pytest.raises(ValueError): stix2.BinaryConstant('foo') def test_escape_quotes_and_backslashes(): exp = stix2.MatchesComparisonExpression( "file:name", "^Final Report.+\\.exe$", ) assert str(exp) == "file:name MATCHES '^Final Report.+\\\\.exe$'" def test_like(): exp = stix2.LikeComparisonExpression( "directory:path", "C:\\Windows\\%\\foo", ) assert str(exp) == "directory:path LIKE 'C:\\\\Windows\\\\%\\\\foo'" def test_issuperset(): exp = stix2.IsSupersetComparisonExpression( "ipv4-addr:value", "198.51.100.0/24", ) assert str(exp) == "ipv4-addr:value ISSUPERSET '198.51.100.0/24'" def test_repeat_qualifier(): qual = stix2.RepeatQualifier(stix2.IntegerConstant(5)) assert str(qual) == 'REPEATS 5 TIMES' def test_invalid_repeat_qualifier(): with pytest.raises(ValueError): stix2.RepeatQualifier('foo') def test_invalid_within_qualifier(): with pytest.raises(ValueError): stix2.WithinQualifier('foo') def test_startstop_qualifier(): qual = stix2.StartStopQualifier( stix2.TimestampConstant('2016-06-01T00:00:00Z'), datetime.datetime(2017, 3, 12, 8, 30, 0), ) assert str(qual) == "START t'2016-06-01T00:00:00Z' STOP t'2017-03-12T08:30:00Z'" qual2 = stix2.StartStopQualifier( datetime.date(2016, 6, 1), stix2.TimestampConstant('2016-07-01T00:00:00Z'), ) assert str(qual2) == "START t'2016-06-01T00:00:00Z' STOP t'2016-07-01T00:00:00Z'" def test_invalid_startstop_qualifier(): with pytest.raises(ValueError): stix2.StartStopQualifier( 'foo', stix2.TimestampConstant('2016-06-01T00:00:00Z'), ) with pytest.raises(ValueError): stix2.StartStopQualifier( datetime.date(2016, 6, 1), 'foo', ) @pytest.mark.parametrize( "input_, expected_class, expected_value", [ (1, stix2.patterns.IntegerConstant, 1), (1.5, stix2.patterns.FloatConstant, 1.5), ("abc", stix2.patterns.StringConstant, "abc"), (True, stix2.patterns.BooleanConstant, True), ( "2001-02-10T21:36:15Z", stix2.patterns.TimestampConstant, stix2.utils.STIXdatetime(2001, 2, 10, 21, 36, 15, tzinfo=pytz.utc), ), ( datetime.datetime(2001, 2, 10, 21, 36, 15, tzinfo=pytz.utc), stix2.patterns.TimestampConstant, stix2.utils.STIXdatetime(2001, 2, 10, 21, 36, 15, tzinfo=pytz.utc), ), ], ) def test_make_constant_simple(input_, expected_class, expected_value): const = stix2.patterns.make_constant(input_) assert isinstance(const, expected_class) assert const.value == expected_value def test_make_constant_list(): list_const = stix2.patterns.make_constant([1, 2, 3]) assert isinstance(list_const, stix2.patterns.ListConstant) assert all( isinstance(elt, stix2.patterns.IntegerConstant) for elt in list_const.value ) assert all( int_const.value == test_elt for int_const, test_elt in zip(list_const.value, [1, 2, 3]) ) def test_make_constant_already_a_constant(): str_const = stix2.StringConstant('Foo') result = stix2.patterns.make_constant(str_const) assert result is str_const def test_parsing_comparison_expression(): patt_obj = create_pattern_object("[file:hashes.'SHA-256' = 'aec070645fe53ee3b3763059376134f058cc337247c978add178b6ccdfb0019f']", version="2.1") assert str(patt_obj) == "[file:hashes.'SHA-256' = 'aec070645fe53ee3b3763059376134f058cc337247c978add178b6ccdfb0019f']" def test_parsing_repeat_and_within_qualified_expression(): patt_obj = create_pattern_object( "[network-traffic:dst_ref.type = 'domain-name' AND network-traffic:dst_ref.value = 'example.com'] REPEATS 5 TIMES WITHIN 1800 SECONDS", version="2.1", ) assert str( patt_obj, ) == "[network-traffic:dst_ref.type = 'domain-name' AND network-traffic:dst_ref.value = 'example.com'] REPEATS 5 TIMES WITHIN 1800 SECONDS" def test_parsing_start_stop_qualified_expression(): patt_obj = create_pattern_object( "[network-traffic:dst_ref.type = 'domain-name' AND network-traffic:dst_ref.value = 'example.com'] START t'2016-06-01T00:00:00Z' STOP t'2017-03-12T08:30:00Z'", # noqa version="2.1", ) assert str( patt_obj, ) == "[network-traffic:dst_ref.type = 'domain-name' AND network-traffic:dst_ref.value = 'example.com'] START t'2016-06-01T00:00:00Z' STOP t'2017-03-12T08:30:00Z'" # noqa def test_list_constant(): patt_obj = create_pattern_object("[network-traffic:src_ref.value IN ('10.0.0.0', '10.0.0.1', '10.0.0.2')]", version="2.1") assert str(patt_obj) == "[network-traffic:src_ref.value IN ('10.0.0.0', '10.0.0.1', '10.0.0.2')]" def test_parsing_boolean(): patt_obj = create_pattern_object("[network-traffic:is_active = true]", version="2.1") assert str(patt_obj) == "[network-traffic:is_active = true]" def test_parsing_mixed_boolean_expression_1(): patt_obj = create_pattern_object("[a:b = 1 AND a:b = 2 OR a:b = 3]") assert str(patt_obj) == "[a:b = 1 AND a:b = 2 OR a:b = 3]" def test_parsing_mixed_boolean_expression_2(): patt_obj = create_pattern_object("[a:b = 1 OR a:b = 2 AND a:b = 3]") assert str(patt_obj) == "[a:b = 1 OR a:b = 2 AND a:b = 3]" def test_parsing_integer_index(): patt_obj = create_pattern_object("[a:b[1]=2]") assert str(patt_obj) == "[a:b[1] = 2]" # This should never occur, because the first component will always be a property_name, and they should not be quoted. def test_parsing_quoted_first_path_component(): patt_obj = create_pattern_object("[a:'b'[1]=2]") assert str(patt_obj) == "[a:'b'[1] = 2]" def test_parsing_quoted_second_path_component(): patt_obj = create_pattern_object("[a:b.'b'[1]=2]") assert str(patt_obj) == "[a:b.'b'[1] = 2]" def test_parsing_multiple_slashes_quotes(): patt_obj = create_pattern_object("[ file:name = 'weird_name\\'' ]", version="2.1") assert str(patt_obj) == "[file:name = 'weird_name\\'']" def test_parse_error(): with pytest.raises(ParseException): create_pattern_object("[ file: name = 'weirdname]", version="2.1")