# -*- coding: utf-8 -*- # Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. # See https://llvm.org/LICENSE.txt for license information. # SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception import unittest import re import os import os.path import libear import libscanbuild.analyze as sut class ReportDirectoryTest(unittest.TestCase): # Test that successive report directory names ascend in lexicographic # order. This is required so that report directories from two runs of # scan-build can be easily matched up to compare results. def test_directory_name_comparison(self): with libear.TemporaryDirectory() as tmpdir, sut.report_directory( tmpdir, False, "html" ) as report_dir1, sut.report_directory( tmpdir, False, "html" ) as report_dir2, sut.report_directory( tmpdir, False, "html" ) as report_dir3: self.assertLess(report_dir1, report_dir2) self.assertLess(report_dir2, report_dir3) class FilteringFlagsTest(unittest.TestCase): def test_language_captured(self): def test(flags): cmd = ["clang", "-c", "source.c"] + flags opts = sut.classify_parameters(cmd) return opts["language"] self.assertEqual(None, test([])) self.assertEqual("c", test(["-x", "c"])) self.assertEqual("cpp", test(["-x", "cpp"])) def test_arch(self): def test(flags): cmd = ["clang", "-c", "source.c"] + flags opts = sut.classify_parameters(cmd) return opts["arch_list"] self.assertEqual([], test([])) self.assertEqual(["mips"], test(["-arch", "mips"])) self.assertEqual(["mips", "i386"], test(["-arch", "mips", "-arch", "i386"])) def assertFlagsChanged(self, expected, flags): cmd = ["clang", "-c", "source.c"] + flags opts = sut.classify_parameters(cmd) self.assertEqual(expected, opts["flags"]) def assertFlagsUnchanged(self, flags): self.assertFlagsChanged(flags, flags) def assertFlagsFiltered(self, flags): self.assertFlagsChanged([], flags) def test_optimalizations_pass(self): self.assertFlagsUnchanged(["-O"]) self.assertFlagsUnchanged(["-O1"]) self.assertFlagsUnchanged(["-Os"]) self.assertFlagsUnchanged(["-O2"]) self.assertFlagsUnchanged(["-O3"]) def test_include_pass(self): self.assertFlagsUnchanged([]) self.assertFlagsUnchanged(["-include", "/usr/local/include"]) self.assertFlagsUnchanged(["-I."]) self.assertFlagsUnchanged(["-I", "."]) self.assertFlagsUnchanged(["-I/usr/local/include"]) self.assertFlagsUnchanged(["-I", "/usr/local/include"]) self.assertFlagsUnchanged(["-I/opt", "-I", "/opt/otp/include"]) self.assertFlagsUnchanged(["-isystem", "/path"]) self.assertFlagsUnchanged(["-isystem=/path"]) def test_define_pass(self): self.assertFlagsUnchanged(["-DNDEBUG"]) self.assertFlagsUnchanged(["-UNDEBUG"]) self.assertFlagsUnchanged(["-Dvar1=val1", "-Dvar2=val2"]) self.assertFlagsUnchanged(['-Dvar="val ues"']) def test_output_filtered(self): self.assertFlagsFiltered(["-o", "source.o"]) def test_some_warning_filtered(self): self.assertFlagsFiltered(["-Wall"]) self.assertFlagsFiltered(["-Wnoexcept"]) self.assertFlagsFiltered(["-Wreorder", "-Wunused", "-Wundef"]) self.assertFlagsUnchanged(["-Wno-reorder", "-Wno-unused"]) def test_compile_only_flags_pass(self): self.assertFlagsUnchanged(["-std=C99"]) self.assertFlagsUnchanged(["-nostdinc"]) self.assertFlagsUnchanged(["-isystem", "/image/debian"]) self.assertFlagsUnchanged(["-iprefix", "/usr/local"]) self.assertFlagsUnchanged(["-iquote=me"]) self.assertFlagsUnchanged(["-iquote", "me"]) def test_compile_and_link_flags_pass(self): self.assertFlagsUnchanged(["-fsinged-char"]) self.assertFlagsUnchanged(["-fPIC"]) self.assertFlagsUnchanged(["-stdlib=libc++"]) self.assertFlagsUnchanged(["--sysroot", "/"]) self.assertFlagsUnchanged(["-isysroot", "/"]) def test_some_flags_filtered(self): self.assertFlagsFiltered(["-g"]) self.assertFlagsFiltered(["-fsyntax-only"]) self.assertFlagsFiltered(["-save-temps"]) self.assertFlagsFiltered(["-init", "my_init"]) self.assertFlagsFiltered(["-sectorder", "a", "b", "c"]) class Spy(object): def __init__(self): self.arg = None self.success = 0 def call(self, params): self.arg = params return self.success class RunAnalyzerTest(unittest.TestCase): @staticmethod def run_analyzer(content, failures_report, output_format="plist"): with libear.TemporaryDirectory() as tmpdir: filename = os.path.join(tmpdir, "test.cpp") with open(filename, "w") as handle: handle.write(content) opts = { "clang": "clang", "directory": os.getcwd(), "flags": [], "direct_args": [], "file": filename, "output_dir": tmpdir, "output_format": output_format, "output_failures": failures_report, } spy = Spy() result = sut.run_analyzer(opts, spy.call) output_files = [] for entry in os.listdir(tmpdir): output_files.append(entry) return (result, spy.arg, output_files) def test_run_analyzer(self): content = "int div(int n, int d) { return n / d; }" (result, fwds, _) = RunAnalyzerTest.run_analyzer(content, False) self.assertEqual(None, fwds) self.assertEqual(0, result["exit_code"]) def test_run_analyzer_crash(self): content = "int div(int n, int d) { return n / d }" (result, fwds, _) = RunAnalyzerTest.run_analyzer(content, False) self.assertEqual(None, fwds) self.assertEqual(1, result["exit_code"]) def test_run_analyzer_crash_and_forwarded(self): content = "int div(int n, int d) { return n / d }" (_, fwds, _) = RunAnalyzerTest.run_analyzer(content, True) self.assertEqual(1, fwds["exit_code"]) self.assertTrue(len(fwds["error_output"]) > 0) def test_run_analyzer_with_sarif(self): content = "int div(int n, int d) { return n / d; }" (result, fwds, output_files) = RunAnalyzerTest.run_analyzer( content, False, output_format="sarif" ) self.assertEqual(None, fwds) self.assertEqual(0, result["exit_code"]) pattern = re.compile(r"^result-.+\.sarif$") for f in output_files: if re.match(pattern, f): return self.fail("no result sarif files found in output") class ReportFailureTest(unittest.TestCase): def assertUnderFailures(self, path): self.assertEqual("failures", os.path.basename(os.path.dirname(path))) def test_report_failure_create_files(self): with libear.TemporaryDirectory() as tmpdir: # create input file filename = os.path.join(tmpdir, "test.c") with open(filename, "w") as handle: handle.write("int main() { return 0") uname_msg = " ".join(os.uname()) + os.linesep error_msg = "this is my error output" # execute test opts = { "clang": "clang", "directory": os.getcwd(), "flags": [], "file": filename, "output_dir": tmpdir, "language": "c", "error_type": "other_error", "error_output": error_msg, "exit_code": 13, } sut.report_failure(opts) # verify the result result = dict() pp_file = None for root, _, files in os.walk(tmpdir): keys = [os.path.join(root, name) for name in files] for key in keys: with open(key, "r") as handle: result[key] = handle.readlines() if re.match(r"^(.*/)+clang(.*)\.i$", key): pp_file = key # prepocessor file generated self.assertUnderFailures(pp_file) # info file generated and content dumped info_file = pp_file + ".info.txt" self.assertTrue(info_file in result) self.assertEqual("Other Error\n", result[info_file][1]) self.assertEqual(uname_msg, result[info_file][3]) # error file generated and content dumped error_file = pp_file + ".stderr.txt" self.assertTrue(error_file in result) self.assertEqual([error_msg], result[error_file]) class AnalyzerTest(unittest.TestCase): def test_nodebug_macros_appended(self): def test(flags): spy = Spy() opts = {"flags": flags, "force_debug": True} self.assertEqual(spy.success, sut.filter_debug_flags(opts, spy.call)) return spy.arg["flags"] self.assertEqual(["-UNDEBUG"], test([])) self.assertEqual(["-DNDEBUG", "-UNDEBUG"], test(["-DNDEBUG"])) self.assertEqual(["-DSomething", "-UNDEBUG"], test(["-DSomething"])) def test_set_language_fall_through(self): def language(expected, input): spy = Spy() input.update({"compiler": "c", "file": "test.c"}) self.assertEqual(spy.success, sut.language_check(input, spy.call)) self.assertEqual(expected, spy.arg["language"]) language("c", {"language": "c", "flags": []}) language("c++", {"language": "c++", "flags": []}) def test_set_language_stops_on_not_supported(self): spy = Spy() input = {"compiler": "c", "flags": [], "file": "test.java", "language": "java"} self.assertIsNone(sut.language_check(input, spy.call)) self.assertIsNone(spy.arg) def test_set_language_sets_flags(self): def flags(expected, input): spy = Spy() input.update({"compiler": "c", "file": "test.c"}) self.assertEqual(spy.success, sut.language_check(input, spy.call)) self.assertEqual(expected, spy.arg["flags"]) flags(["-x", "c"], {"language": "c", "flags": []}) flags(["-x", "c++"], {"language": "c++", "flags": []}) def test_set_language_from_filename(self): def language(expected, input): spy = Spy() input.update({"language": None, "flags": []}) self.assertEqual(spy.success, sut.language_check(input, spy.call)) self.assertEqual(expected, spy.arg["language"]) language("c", {"file": "file.c", "compiler": "c"}) language("c++", {"file": "file.c", "compiler": "c++"}) language("c++", {"file": "file.cxx", "compiler": "c"}) language("c++", {"file": "file.cxx", "compiler": "c++"}) language("c++", {"file": "file.cpp", "compiler": "c++"}) language("c-cpp-output", {"file": "file.i", "compiler": "c"}) language("c++-cpp-output", {"file": "file.i", "compiler": "c++"}) def test_arch_loop_sets_flags(self): def flags(archs): spy = Spy() input = {"flags": [], "arch_list": archs} sut.arch_check(input, spy.call) return spy.arg["flags"] self.assertEqual([], flags([])) self.assertEqual(["-arch", "i386"], flags(["i386"])) self.assertEqual(["-arch", "i386"], flags(["i386", "ppc"])) self.assertEqual(["-arch", "sparc"], flags(["i386", "sparc"])) def test_arch_loop_stops_on_not_supported(self): def stop(archs): spy = Spy() input = {"flags": [], "arch_list": archs} self.assertIsNone(sut.arch_check(input, spy.call)) self.assertIsNone(spy.arg) stop(["ppc"]) stop(["ppc64"]) @sut.require([]) def method_without_expecteds(opts): return 0 @sut.require(["this", "that"]) def method_with_expecteds(opts): return 0 @sut.require([]) def method_exception_from_inside(opts): raise Exception("here is one") class RequireDecoratorTest(unittest.TestCase): def test_method_without_expecteds(self): self.assertEqual(method_without_expecteds(dict()), 0) self.assertEqual(method_without_expecteds({}), 0) self.assertEqual(method_without_expecteds({"this": 2}), 0) self.assertEqual(method_without_expecteds({"that": 3}), 0) def test_method_with_expecteds(self): self.assertRaises(KeyError, method_with_expecteds, dict()) self.assertRaises(KeyError, method_with_expecteds, {}) self.assertRaises(KeyError, method_with_expecteds, {"this": 2}) self.assertRaises(KeyError, method_with_expecteds, {"that": 3}) self.assertEqual(method_with_expecteds({"this": 0, "that": 3}), 0) def test_method_exception_not_caught(self): self.assertRaises(Exception, method_exception_from_inside, dict()) class PrefixWithTest(unittest.TestCase): def test_gives_empty_on_empty(self): res = sut.prefix_with(0, []) self.assertFalse(res) def test_interleaves_prefix(self): res = sut.prefix_with(0, [1, 2, 3]) self.assertListEqual([0, 1, 0, 2, 0, 3], res) class MergeCtuMapTest(unittest.TestCase): def test_no_map_gives_empty(self): pairs = sut.create_global_ctu_extdef_map([]) self.assertFalse(pairs) def test_multiple_maps_merged(self): concat_map = [ "c:@F@fun1#I# ast/fun1.c.ast", "c:@F@fun2#I# ast/fun2.c.ast", "c:@F@fun3#I# ast/fun3.c.ast", ] pairs = sut.create_global_ctu_extdef_map(concat_map) self.assertTrue(("c:@F@fun1#I#", "ast/fun1.c.ast") in pairs) self.assertTrue(("c:@F@fun2#I#", "ast/fun2.c.ast") in pairs) self.assertTrue(("c:@F@fun3#I#", "ast/fun3.c.ast") in pairs) self.assertEqual(3, len(pairs)) def test_not_unique_func_left_out(self): concat_map = [ "c:@F@fun1#I# ast/fun1.c.ast", "c:@F@fun2#I# ast/fun2.c.ast", "c:@F@fun1#I# ast/fun7.c.ast", ] pairs = sut.create_global_ctu_extdef_map(concat_map) self.assertFalse(("c:@F@fun1#I#", "ast/fun1.c.ast") in pairs) self.assertFalse(("c:@F@fun1#I#", "ast/fun7.c.ast") in pairs) self.assertTrue(("c:@F@fun2#I#", "ast/fun2.c.ast") in pairs) self.assertEqual(1, len(pairs)) def test_duplicates_are_kept(self): concat_map = [ "c:@F@fun1#I# ast/fun1.c.ast", "c:@F@fun2#I# ast/fun2.c.ast", "c:@F@fun1#I# ast/fun1.c.ast", ] pairs = sut.create_global_ctu_extdef_map(concat_map) self.assertTrue(("c:@F@fun1#I#", "ast/fun1.c.ast") in pairs) self.assertTrue(("c:@F@fun2#I#", "ast/fun2.c.ast") in pairs) self.assertEqual(2, len(pairs)) def test_space_handled_in_source(self): concat_map = ["c:@F@fun1#I# ast/f un.c.ast"] pairs = sut.create_global_ctu_extdef_map(concat_map) self.assertTrue(("c:@F@fun1#I#", "ast/f un.c.ast") in pairs) self.assertEqual(1, len(pairs)) class ExtdefMapSrcToAstTest(unittest.TestCase): def test_empty_gives_empty(self): fun_ast_lst = sut.extdef_map_list_src_to_ast([]) self.assertFalse(fun_ast_lst) def test_sources_to_asts(self): fun_src_lst = [ "c:@F@f1#I# " + os.path.join(os.sep + "path", "f1.c"), "c:@F@f2#I# " + os.path.join(os.sep + "path", "f2.c"), ] fun_ast_lst = sut.extdef_map_list_src_to_ast(fun_src_lst) self.assertTrue( "c:@F@f1#I# " + os.path.join("ast", "path", "f1.c.ast") in fun_ast_lst ) self.assertTrue( "c:@F@f2#I# " + os.path.join("ast", "path", "f2.c.ast") in fun_ast_lst ) self.assertEqual(2, len(fun_ast_lst)) def test_spaces_handled(self): fun_src_lst = ["c:@F@f1#I# " + os.path.join(os.sep + "path", "f 1.c")] fun_ast_lst = sut.extdef_map_list_src_to_ast(fun_src_lst) self.assertTrue( "c:@F@f1#I# " + os.path.join("ast", "path", "f 1.c.ast") in fun_ast_lst ) self.assertEqual(1, len(fun_ast_lst))