import os import re import operator import lit.Test import lit.TestRunner import lit.util from lit.formats.base import TestFormat class LLDBTest(TestFormat): def __init__(self, dotest_cmd): self.dotest_cmd = dotest_cmd def getTestsInDirectory(self, testSuite, path_in_suite, litConfig, localConfig): source_path = testSuite.getSourcePath(path_in_suite) for filename in os.listdir(source_path): # Ignore dot files and excluded tests. if (filename.startswith('.') or filename in localConfig.excludes): continue # Ignore files that don't start with 'Test'. if not filename.startswith('Test'): continue filepath = os.path.join(source_path, filename) if not os.path.isdir(filepath): base, ext = os.path.splitext(filename) if ext in localConfig.suffixes: yield lit.Test.Test(testSuite, path_in_suite + (filename, ), localConfig) def execute(self, test, litConfig): if litConfig.noExecute: return lit.Test.PASS, '' if not getattr(test.config, 'lldb_enable_python', False): return (lit.Test.UNSUPPORTED, 'Python module disabled') if test.config.unsupported: return (lit.Test.UNSUPPORTED, 'Test is unsupported') testPath, testFile = os.path.split(test.getSourcePath()) # The Python used to run lit can be different from the Python LLDB was # build with. executable = test.config.python_executable isLuaTest = testFile == test.config.lua_test_entry # On Windows, the system does not always correctly interpret # shebang lines. To make sure we can execute the tests, add # python exe as the first parameter of the command. cmd = [executable] + self.dotest_cmd + [testPath, '-p', testFile] if isLuaTest: luaExecutable = test.config.lua_executable cmd.extend(['--env', 'LUA_EXECUTABLE=%s' % luaExecutable]) timeoutInfo = None try: out, err, exitCode = lit.util.executeCommand( cmd, env=test.config.environment, timeout=litConfig.maxIndividualTestTime) except lit.util.ExecuteCommandTimeoutException as e: out = e.out err = e.err exitCode = e.exitCode timeoutInfo = 'Reached timeout of {} seconds'.format( litConfig.maxIndividualTestTime) output = """Script:\n--\n%s\n--\nExit Code: %d\n""" % ( ' '.join(cmd), exitCode) if timeoutInfo is not None: output += """Timeout: %s\n""" % (timeoutInfo,) output += "\n" if out: output += """Command Output (stdout):\n--\n%s\n--\n""" % (out,) if err: output += """Command Output (stderr):\n--\n%s\n--\n""" % (err,) if timeoutInfo: return lit.Test.TIMEOUT, output # Parse the dotest output from stderr. result_regex = r"\((\d+) passes, (\d+) failures, (\d+) errors, (\d+) skipped, (\d+) expected failures, (\d+) unexpected successes\)" results = re.search(result_regex, err) # If parsing fails mark this test as unresolved. if not results: return lit.Test.UNRESOLVED, output passes = int(results.group(1)) failures = int(results.group(2)) errors = int(results.group(3)) skipped = int(results.group(4)) expected_failures = int(results.group(5)) unexpected_successes = int(results.group(6)) if exitCode: # Mark this test as FAIL if at least one test failed. if failures > 0: return lit.Test.FAIL, output lit_results = [(failures, lit.Test.FAIL), (errors, lit.Test.UNRESOLVED), (unexpected_successes, lit.Test.XPASS)] else: # Mark this test as PASS if at least one test passed. if passes > 0: return lit.Test.PASS, output lit_results = [(passes, lit.Test.PASS), (skipped, lit.Test.UNSUPPORTED), (expected_failures, lit.Test.XFAIL)] # Return the lit result code with the maximum occurrence. Only look at # the first element and rely on the original order to break ties. return max(lit_results, key=operator.itemgetter(0))[1], output