# # Copyright (C) 2016 The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # """Tests for symbolfile.""" import io import textwrap import unittest import symbolfile from symbolfile import Arch, Tag, Tags, Version # pylint: disable=missing-docstring class DecodeApiLevelTest(unittest.TestCase): def test_decode_api_level(self) -> None: self.assertEqual(9, symbolfile.decode_api_level('9', {})) self.assertEqual(9000, symbolfile.decode_api_level('O', {'O': 9000})) with self.assertRaises(KeyError): symbolfile.decode_api_level('O', {}) class TagsTest(unittest.TestCase): def test_get_tags_no_tags(self) -> None: self.assertEqual(Tags(), symbolfile.get_tags('', {})) self.assertEqual(Tags(), symbolfile.get_tags('foo bar baz', {})) def test_get_tags(self) -> None: self.assertEqual(Tags.from_strs(['foo', 'bar']), symbolfile.get_tags('# foo bar', {})) self.assertEqual(Tags.from_strs(['bar', 'baz']), symbolfile.get_tags('foo # bar baz', {})) def test_split_tag(self) -> None: self.assertTupleEqual(('foo', 'bar'), symbolfile.split_tag(Tag('foo=bar'))) self.assertTupleEqual(('foo', 'bar=baz'), symbolfile.split_tag(Tag('foo=bar=baz'))) with self.assertRaises(ValueError): symbolfile.split_tag(Tag('foo')) def test_get_tag_value(self) -> None: self.assertEqual('bar', symbolfile.get_tag_value(Tag('foo=bar'))) self.assertEqual('bar=baz', symbolfile.get_tag_value(Tag('foo=bar=baz'))) with self.assertRaises(ValueError): symbolfile.get_tag_value(Tag('foo')) def test_is_api_level_tag(self) -> None: self.assertTrue(symbolfile.is_api_level_tag(Tag('introduced=24'))) self.assertTrue(symbolfile.is_api_level_tag(Tag('introduced-arm=24'))) self.assertTrue(symbolfile.is_api_level_tag(Tag('versioned=24'))) # Shouldn't try to process things that aren't a key/value tag. self.assertFalse(symbolfile.is_api_level_tag(Tag('arm'))) self.assertFalse(symbolfile.is_api_level_tag(Tag('introduced'))) self.assertFalse(symbolfile.is_api_level_tag(Tag('versioned'))) # We don't support arch specific `versioned` tags. self.assertFalse(symbolfile.is_api_level_tag(Tag('versioned-arm=24'))) def test_decode_api_level_tags(self) -> None: api_map = { 'O': 9000, 'P': 9001, } tags = [ symbolfile.decode_api_level_tag(t, api_map) for t in ( Tag('introduced=9'), Tag('introduced-arm=14'), Tag('versioned=16'), Tag('arm'), Tag('introduced=O'), Tag('introduced=P'), ) ] expected_tags = [ Tag('introduced=9'), Tag('introduced-arm=14'), Tag('versioned=16'), Tag('arm'), Tag('introduced=9000'), Tag('introduced=9001'), ] self.assertListEqual(expected_tags, tags) with self.assertRaises(symbolfile.ParseError): symbolfile.decode_api_level_tag(Tag('introduced=O'), {}) class PrivateVersionTest(unittest.TestCase): def test_version_is_private(self) -> None: def mock_version(name: str) -> Version: return Version(name, base=None, tags=Tags(), symbols=[]) self.assertFalse(mock_version('foo').is_private) self.assertFalse(mock_version('PRIVATE').is_private) self.assertFalse(mock_version('PLATFORM').is_private) self.assertFalse(mock_version('foo_private').is_private) self.assertFalse(mock_version('foo_platform').is_private) self.assertFalse(mock_version('foo_PRIVATE_').is_private) self.assertFalse(mock_version('foo_PLATFORM_').is_private) self.assertTrue(mock_version('foo_PRIVATE').is_private) self.assertTrue(mock_version('foo_PLATFORM').is_private) class SymbolPresenceTest(unittest.TestCase): def test_symbol_in_arch(self) -> None: self.assertTrue(symbolfile.symbol_in_arch(Tags(), Arch('arm'))) self.assertTrue( symbolfile.symbol_in_arch(Tags.from_strs(['arm']), Arch('arm'))) self.assertFalse( symbolfile.symbol_in_arch(Tags.from_strs(['x86']), Arch('arm'))) def test_symbol_in_api(self) -> None: self.assertTrue(symbolfile.symbol_in_api([], Arch('arm'), 9)) self.assertTrue( symbolfile.symbol_in_api([Tag('introduced=9')], Arch('arm'), 9)) self.assertTrue( symbolfile.symbol_in_api([Tag('introduced=9')], Arch('arm'), 14)) self.assertTrue( symbolfile.symbol_in_api([Tag('introduced-arm=9')], Arch('arm'), 14)) self.assertTrue( symbolfile.symbol_in_api([Tag('introduced-arm=9')], Arch('arm'), 14)) self.assertTrue( symbolfile.symbol_in_api([Tag('introduced-x86=14')], Arch('arm'), 9)) self.assertTrue( symbolfile.symbol_in_api( [Tag('introduced-arm=9'), Tag('introduced-x86=21')], Arch('arm'), 14)) self.assertTrue( symbolfile.symbol_in_api( [Tag('introduced=9'), Tag('introduced-x86=21')], Arch('arm'), 14)) self.assertTrue( symbolfile.symbol_in_api( [Tag('introduced=21'), Tag('introduced-arm=9')], Arch('arm'), 14)) self.assertTrue( symbolfile.symbol_in_api([Tag('future')], Arch('arm'), symbolfile.FUTURE_API_LEVEL)) self.assertFalse( symbolfile.symbol_in_api([Tag('introduced=14')], Arch('arm'), 9)) self.assertFalse( symbolfile.symbol_in_api([Tag('introduced-arm=14')], Arch('arm'), 9)) self.assertFalse( symbolfile.symbol_in_api([Tag('future')], Arch('arm'), 9)) self.assertFalse( symbolfile.symbol_in_api( [Tag('introduced=9'), Tag('future')], Arch('arm'), 14)) self.assertFalse( symbolfile.symbol_in_api([Tag('introduced-arm=9'), Tag('future')], Arch('arm'), 14)) self.assertFalse( symbolfile.symbol_in_api( [Tag('introduced-arm=21'), Tag('introduced-x86=9')], Arch('arm'), 14)) self.assertFalse( symbolfile.symbol_in_api( [Tag('introduced=9'), Tag('introduced-arm=21')], Arch('arm'), 14)) self.assertFalse( symbolfile.symbol_in_api( [Tag('introduced=21'), Tag('introduced-x86=9')], Arch('arm'), 14)) # Interesting edge case: this symbol should be omitted from the # library, but this call should still return true because none of the # tags indiciate that it's not present in this API level. self.assertTrue(symbolfile.symbol_in_api([Tag('x86')], Arch('arm'), 9)) def test_verioned_in_api(self) -> None: self.assertTrue(symbolfile.symbol_versioned_in_api([], 9)) self.assertTrue( symbolfile.symbol_versioned_in_api([Tag('versioned=9')], 9)) self.assertTrue( symbolfile.symbol_versioned_in_api([Tag('versioned=9')], 14)) self.assertFalse( symbolfile.symbol_versioned_in_api([Tag('versioned=14')], 9)) class OmitVersionTest(unittest.TestCase): def test_omit_private(self) -> None: self.assertFalse( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags(), []), Arch('arm'), 9, False, False)) self.assertTrue( symbolfile.should_omit_version( symbolfile.Version('foo_PRIVATE', None, Tags(), []), Arch('arm'), 9, False, False)) self.assertTrue( symbolfile.should_omit_version( symbolfile.Version('foo_PLATFORM', None, Tags(), []), Arch('arm'), 9, False, False)) self.assertTrue( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags.from_strs(['platform-only']), []), Arch('arm'), 9, False, False)) def test_omit_llndk(self) -> None: self.assertTrue( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags.from_strs(['llndk']), []), Arch('arm'), 9, False, False)) self.assertFalse( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags(), []), Arch('arm'), 9, True, False)) self.assertFalse( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags.from_strs(['llndk']), []), Arch('arm'), 9, True, False)) def test_omit_apex(self) -> None: self.assertTrue( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags.from_strs(['apex']), []), Arch('arm'), 9, False, False)) self.assertFalse( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags(), []), Arch('arm'), 9, False, True)) self.assertFalse( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags.from_strs(['apex']), []), Arch('arm'), 9, False, True)) def test_omit_systemapi(self) -> None: self.assertTrue( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags.from_strs(['systemapi']), []), Arch('arm'), 9, False, False)) self.assertFalse( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags(), []), Arch('arm'), 9, False, True)) self.assertFalse( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags.from_strs(['systemapi']), []), Arch('arm'), 9, False, True)) def test_omit_arch(self) -> None: self.assertFalse( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags(), []), Arch('arm'), 9, False, False)) self.assertFalse( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags.from_strs(['arm']), []), Arch('arm'), 9, False, False)) self.assertTrue( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags.from_strs(['x86']), []), Arch('arm'), 9, False, False)) def test_omit_api(self) -> None: self.assertFalse( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags(), []), Arch('arm'), 9, False, False)) self.assertFalse( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags.from_strs(['introduced=9']), []), Arch('arm'), 9, False, False)) self.assertTrue( symbolfile.should_omit_version( symbolfile.Version('foo', None, Tags.from_strs(['introduced=14']), []), Arch('arm'), 9, False, False)) class OmitSymbolTest(unittest.TestCase): def test_omit_llndk(self) -> None: self.assertTrue( symbolfile.should_omit_symbol( symbolfile.Symbol('foo', Tags.from_strs(['llndk'])), Arch('arm'), 9, False, False)) self.assertFalse( symbolfile.should_omit_symbol(symbolfile.Symbol('foo', Tags()), Arch('arm'), 9, True, False)) self.assertFalse( symbolfile.should_omit_symbol( symbolfile.Symbol('foo', Tags.from_strs(['llndk'])), Arch('arm'), 9, True, False)) def test_omit_apex(self) -> None: self.assertTrue( symbolfile.should_omit_symbol( symbolfile.Symbol('foo', Tags.from_strs(['apex'])), Arch('arm'), 9, False, False)) self.assertFalse( symbolfile.should_omit_symbol(symbolfile.Symbol('foo', Tags()), Arch('arm'), 9, False, True)) self.assertFalse( symbolfile.should_omit_symbol( symbolfile.Symbol('foo', Tags.from_strs(['apex'])), Arch('arm'), 9, False, True)) def test_omit_systemapi(self) -> None: self.assertTrue( symbolfile.should_omit_symbol( symbolfile.Symbol('foo', Tags.from_strs(['systemapi'])), Arch('arm'), 9, False, False)) self.assertFalse( symbolfile.should_omit_symbol(symbolfile.Symbol('foo', Tags()), Arch('arm'), 9, False, True)) self.assertFalse( symbolfile.should_omit_symbol( symbolfile.Symbol('foo', Tags.from_strs(['systemapi'])), Arch('arm'), 9, False, True)) def test_omit_arch(self) -> None: self.assertFalse( symbolfile.should_omit_symbol(symbolfile.Symbol('foo', Tags()), Arch('arm'), 9, False, False)) self.assertFalse( symbolfile.should_omit_symbol( symbolfile.Symbol('foo', Tags.from_strs(['arm'])), Arch('arm'), 9, False, False)) self.assertTrue( symbolfile.should_omit_symbol( symbolfile.Symbol('foo', Tags.from_strs(['x86'])), Arch('arm'), 9, False, False)) def test_omit_api(self) -> None: self.assertFalse( symbolfile.should_omit_symbol(symbolfile.Symbol('foo', Tags()), Arch('arm'), 9, False, False)) self.assertFalse( symbolfile.should_omit_symbol( symbolfile.Symbol('foo', Tags.from_strs(['introduced=9'])), Arch('arm'), 9, False, False)) self.assertTrue( symbolfile.should_omit_symbol( symbolfile.Symbol('foo', Tags.from_strs(['introduced=14'])), Arch('arm'), 9, False, False)) class SymbolFileParseTest(unittest.TestCase): def test_next_line(self) -> None: input_file = io.StringIO(textwrap.dedent("""\ foo bar # baz qux """)) parser = symbolfile.SymbolFileParser(input_file, {}, Arch('arm'), 16, False, False) self.assertIsNone(parser.current_line) self.assertEqual('foo', parser.next_line().strip()) assert parser.current_line is not None self.assertEqual('foo', parser.current_line.strip()) self.assertEqual('bar', parser.next_line().strip()) self.assertEqual('bar', parser.current_line.strip()) self.assertEqual('qux', parser.next_line().strip()) self.assertEqual('qux', parser.current_line.strip()) self.assertEqual('', parser.next_line()) self.assertEqual('', parser.current_line) def test_parse_version(self) -> None: input_file = io.StringIO(textwrap.dedent("""\ VERSION_1 { # foo bar baz; qux; # woodly doodly }; VERSION_2 { } VERSION_1; # asdf """)) parser = symbolfile.SymbolFileParser(input_file, {}, Arch('arm'), 16, False, False) parser.next_line() version = parser.parse_version() self.assertEqual('VERSION_1', version.name) self.assertIsNone(version.base) self.assertEqual(Tags.from_strs(['foo', 'bar']), version.tags) expected_symbols = [ symbolfile.Symbol('baz', Tags()), symbolfile.Symbol('qux', Tags.from_strs(['woodly', 'doodly'])), ] self.assertEqual(expected_symbols, version.symbols) parser.next_line() version = parser.parse_version() self.assertEqual('VERSION_2', version.name) self.assertEqual('VERSION_1', version.base) self.assertEqual(Tags(), version.tags) def test_parse_version_eof(self) -> None: input_file = io.StringIO(textwrap.dedent("""\ VERSION_1 { """)) parser = symbolfile.SymbolFileParser(input_file, {}, Arch('arm'), 16, False, False) parser.next_line() with self.assertRaises(symbolfile.ParseError): parser.parse_version() def test_unknown_scope_label(self) -> None: input_file = io.StringIO(textwrap.dedent("""\ VERSION_1 { foo: } """)) parser = symbolfile.SymbolFileParser(input_file, {}, Arch('arm'), 16, False, False) parser.next_line() with self.assertRaises(symbolfile.ParseError): parser.parse_version() def test_parse_symbol(self) -> None: input_file = io.StringIO(textwrap.dedent("""\ foo; bar; # baz qux """)) parser = symbolfile.SymbolFileParser(input_file, {}, Arch('arm'), 16, False, False) parser.next_line() symbol = parser.parse_symbol() self.assertEqual('foo', symbol.name) self.assertEqual(Tags(), symbol.tags) parser.next_line() symbol = parser.parse_symbol() self.assertEqual('bar', symbol.name) self.assertEqual(Tags.from_strs(['baz', 'qux']), symbol.tags) def test_wildcard_symbol_global(self) -> None: input_file = io.StringIO(textwrap.dedent("""\ VERSION_1 { *; }; """)) parser = symbolfile.SymbolFileParser(input_file, {}, Arch('arm'), 16, False, False) parser.next_line() with self.assertRaises(symbolfile.ParseError): parser.parse_version() def test_wildcard_symbol_local(self) -> None: input_file = io.StringIO(textwrap.dedent("""\ VERSION_1 { local: *; }; """)) parser = symbolfile.SymbolFileParser(input_file, {}, Arch('arm'), 16, False, False) parser.next_line() version = parser.parse_version() self.assertEqual([], version.symbols) def test_missing_semicolon(self) -> None: input_file = io.StringIO(textwrap.dedent("""\ VERSION_1 { foo }; """)) parser = symbolfile.SymbolFileParser(input_file, {}, Arch('arm'), 16, False, False) parser.next_line() with self.assertRaises(symbolfile.ParseError): parser.parse_version() def test_parse_fails_invalid_input(self) -> None: with self.assertRaises(symbolfile.ParseError): input_file = io.StringIO('foo') parser = symbolfile.SymbolFileParser(input_file, {}, Arch('arm'), 16, False, False) parser.parse() def test_parse(self) -> None: input_file = io.StringIO(textwrap.dedent("""\ VERSION_1 { local: hidden1; global: foo; bar; # baz }; VERSION_2 { # wasd # Implicit global scope. woodly; doodly; # asdf local: qwerty; } VERSION_1; """)) parser = symbolfile.SymbolFileParser(input_file, {}, Arch('arm'), 16, False, False) versions = parser.parse() expected = [ symbolfile.Version('VERSION_1', None, Tags(), [ symbolfile.Symbol('foo', Tags()), symbolfile.Symbol('bar', Tags.from_strs(['baz'])), ]), symbolfile.Version( 'VERSION_2', 'VERSION_1', Tags.from_strs(['wasd']), [ symbolfile.Symbol('woodly', Tags()), symbolfile.Symbol('doodly', Tags.from_strs(['asdf'])), ]), ] self.assertEqual(expected, versions) def test_parse_llndk_apex_symbol(self) -> None: input_file = io.StringIO(textwrap.dedent("""\ VERSION_1 { foo; bar; # llndk baz; # llndk apex qux; # apex }; """)) parser = symbolfile.SymbolFileParser(input_file, {}, Arch('arm'), 16, False, True) parser.next_line() version = parser.parse_version() self.assertEqual('VERSION_1', version.name) self.assertIsNone(version.base) expected_symbols = [ symbolfile.Symbol('foo', Tags()), symbolfile.Symbol('bar', Tags.from_strs(['llndk'])), symbolfile.Symbol('baz', Tags.from_strs(['llndk', 'apex'])), symbolfile.Symbol('qux', Tags.from_strs(['apex'])), ] self.assertEqual(expected_symbols, version.symbols) def main() -> None: suite = unittest.TestLoader().loadTestsFromName(__name__) unittest.TextTestRunner(verbosity=3).run(suite) if __name__ == '__main__': main()