| import os |
| import platform |
| import re |
| import signal |
| import subprocess |
| import sys |
| |
| import ShUtil |
| import Util |
| |
| kSystemName = platform.system() |
| |
| class TestStatus: |
| Pass = 0 |
| XFail = 1 |
| Fail = 2 |
| XPass = 3 |
| Invalid = 4 |
| |
| kNames = ['Pass','XFail','Fail','XPass','Invalid'] |
| @staticmethod |
| def getName(code): |
| return TestStatus.kNames[code] |
| |
| def executeShCmd(cmd, cfg, cwd, results): |
| if isinstance(cmd, ShUtil.Seq): |
| if cmd.op == ';': |
| res = executeShCmd(cmd.lhs, cfg, cwd, results) |
| return executeShCmd(cmd.rhs, cfg, cwd, results) |
| |
| if cmd.op == '&': |
| raise NotImplementedError,"unsupported test command: '&'" |
| |
| if cmd.op == '||': |
| res = executeShCmd(cmd.lhs, cfg, cwd, results) |
| if res != 0: |
| res = executeShCmd(cmd.rhs, cfg, cwd, results) |
| return res |
| if cmd.op == '&&': |
| res = executeShCmd(cmd.lhs, cfg, cwd, results) |
| if res is None: |
| return res |
| |
| if res == 0: |
| res = executeShCmd(cmd.rhs, cfg, cwd, results) |
| return res |
| |
| raise ValueError,'Unknown shell command: %r' % cmd.op |
| |
| assert isinstance(cmd, ShUtil.Pipeline) |
| procs = [] |
| input = subprocess.PIPE |
| for j in cmd.commands: |
| # FIXME: This is broken, it doesn't account for the accumulative nature |
| # of redirects. |
| stdin = input |
| stdout = stderr = subprocess.PIPE |
| for r in j.redirects: |
| if r[0] == ('>',2): |
| stderr = open(r[1], 'w') |
| elif r[0] == ('>&',2) and r[1] == '1': |
| stderr = subprocess.STDOUT |
| elif r[0] == ('>',): |
| stdout = open(r[1], 'w') |
| elif r[0] == ('<',): |
| stdin = open(r[1], 'r') |
| else: |
| raise NotImplementedError,"Unsupported redirect: %r" % r |
| |
| procs.append(subprocess.Popen(j.args, cwd=cwd, |
| stdin = stdin, |
| stdout = stdout, |
| stderr = stderr, |
| env = cfg.environment)) |
| |
| # Immediately close stdin for any process taking stdin from us. |
| if stdin == subprocess.PIPE: |
| procs[-1].stdin.close() |
| procs[-1].stdin = None |
| |
| if stdout == subprocess.PIPE: |
| input = procs[-1].stdout |
| else: |
| input = subprocess.PIPE |
| |
| # FIXME: There is a potential for deadlock here, when we have a pipe and |
| # some process other than the last one ends up blocked on stderr. |
| procData = [None] * len(procs) |
| procData[-1] = procs[-1].communicate() |
| for i in range(len(procs) - 1): |
| if procs[i].stdout is not None: |
| out = procs[i].stdout.read() |
| else: |
| out = '' |
| if procs[i].stderr is not None: |
| err = procs[i].stderr.read() |
| else: |
| err = '' |
| procData[i] = (out,err) |
| |
| # FIXME: Fix tests to work with pipefail, and make exitCode max across |
| # procs. |
| for i,(out,err) in enumerate(procData): |
| exitCode = res = procs[i].wait() |
| results.append((cmd.commands[i], out, err, res)) |
| |
| if cmd.negate: |
| exitCode = not exitCode |
| |
| return exitCode |
| |
| def executeScriptInternal(cfg, commands, cwd): |
| cmd = ShUtil.ShParser(' &&\n'.join(commands)).parse() |
| |
| results = [] |
| try: |
| exitCode = executeShCmd(cmd, cfg, cwd, results) |
| except: |
| import traceback |
| |
| out = '' |
| err = 'Exception during script execution:\n%s\n' % traceback.format_exc() |
| return out, err, 127 |
| |
| out = err = '' |
| for i,(cmd, cmd_out,cmd_err,res) in enumerate(results): |
| out += 'Command %d: %s\n' % (i, ' '.join('"%s"' % s for s in cmd.args)) |
| out += 'Command %d Result: %r\n' % (i, res) |
| out += 'Command %d Output:\n%s\n\n' % (i, cmd_out) |
| out += 'Command %d Stderr:\n%s\n\n' % (i, cmd_err) |
| |
| return out, err, exitCode |
| |
| def executeScript(cfg, script, commands, cwd): |
| # Write script file |
| f = open(script,'w') |
| if kSystemName == 'Windows': |
| f.write('\nif %ERRORLEVEL% NEQ 0 EXIT\n'.join(commands)) |
| else: |
| f.write(' &&\n'.join(commands)) |
| f.write('\n') |
| f.close() |
| |
| if kSystemName == 'Windows': |
| command = ['cmd','/c', script] |
| else: |
| command = ['/bin/sh', script] |
| if cfg.useValgrind: |
| # FIXME: Running valgrind on sh is overkill. We probably could just |
| # run on clang with no real loss. |
| command = ['valgrind', '-q', |
| '--tool=memcheck', '--leak-check=no', '--trace-children=yes', |
| '--error-exitcode=123'] + command |
| |
| p = subprocess.Popen(command, cwd=cwd, |
| stdin=subprocess.PIPE, |
| stdout=subprocess.PIPE, |
| stderr=subprocess.PIPE, |
| env=cfg.environment) |
| out,err = p.communicate() |
| exitCode = p.wait() |
| |
| return out, err, exitCode |
| |
| import StringIO |
| def runOneTest(cfg, testPath, tmpBase): |
| # Make paths absolute. |
| tmpBase = os.path.abspath(tmpBase) |
| testPath = os.path.abspath(testPath) |
| |
| # Create the output directory if it does not already exist. |
| |
| Util.mkdir_p(os.path.dirname(tmpBase)) |
| script = tmpBase + '.script' |
| if kSystemName == 'Windows': |
| script += '.bat' |
| |
| substitutions = [('%s', testPath), |
| ('%S', os.path.dirname(testPath)), |
| ('%t', tmpBase + '.tmp'), |
| (' clang ', ' ' + cfg.clang + ' '), |
| (' clang-cc ', ' ' + cfg.clangcc + ' ')] |
| |
| # Collect the test lines from the script. |
| scriptLines = [] |
| xfailLines = [] |
| for ln in open(testPath): |
| if 'RUN:' in ln: |
| # Isolate the command to run. |
| index = ln.index('RUN:') |
| ln = ln[index+4:] |
| |
| # Strip trailing newline. |
| scriptLines.append(ln) |
| elif 'XFAIL' in ln: |
| xfailLines.append(ln) |
| |
| # FIXME: Support something like END, in case we need to process large |
| # files. |
| |
| # Verify the script contains a run line. |
| if not scriptLines: |
| return (TestStatus.Fail, "Test has no run line!") |
| |
| # Apply substitutions to the script. |
| def processLine(ln): |
| # Apply substitutions |
| for a,b in substitutions: |
| ln = ln.replace(a,b) |
| |
| # Strip the trailing newline and any extra whitespace. |
| return ln.strip() |
| scriptLines = map(processLine, scriptLines) |
| |
| # Validate interior lines for '&&', a lovely historical artifact. |
| for i in range(len(scriptLines) - 1): |
| ln = scriptLines[i] |
| |
| if not ln.endswith('&&'): |
| return (TestStatus.Fail, |
| ("MISSING \'&&\': %s\n" + |
| "FOLLOWED BY : %s\n") % (ln, scriptLines[i + 1])) |
| |
| # Strip off '&&' |
| scriptLines[i] = ln[:-2] |
| |
| if not cfg.useExternalShell: |
| res = executeScriptInternal(cfg, scriptLines, os.path.dirname(testPath)) |
| |
| if res is not None: |
| out, err, exitCode = res |
| elif True: |
| return (TestStatus.Fail, |
| "Unable to execute internally:\n%s\n" |
| % '\n'.join(scriptLines)) |
| else: |
| out, err, exitCode = executeScript(cfg, script, scriptLines, |
| os.path.dirname(testPath)) |
| else: |
| out, err, exitCode = executeScript(cfg, script, scriptLines, |
| os.path.dirname(testPath)) |
| |
| # Detect Ctrl-C in subprocess. |
| if exitCode == -signal.SIGINT: |
| raise KeyboardInterrupt |
| |
| if xfailLines: |
| ok = exitCode != 0 |
| status = (TestStatus.XPass, TestStatus.XFail)[ok] |
| else: |
| ok = exitCode == 0 |
| status = (TestStatus.Fail, TestStatus.Pass)[ok] |
| |
| if ok: |
| return (status,'') |
| |
| output = StringIO.StringIO() |
| print >>output, "Script:" |
| print >>output, "--" |
| print >>output, '\n'.join(scriptLines) |
| print >>output, "--" |
| print >>output, "Exit Code: %r" % exitCode |
| print >>output, "Command Output (stdout):" |
| print >>output, "--" |
| output.write(out) |
| print >>output, "--" |
| print >>output, "Command Output (stderr):" |
| print >>output, "--" |
| output.write(err) |
| print >>output, "--" |
| return (status, output.getvalue()) |
| |
| def capture(args): |
| p = subprocess.Popen(args, stdout=subprocess.PIPE, stderr=subprocess.PIPE) |
| out,_ = p.communicate() |
| return out |
| |
| def inferClang(cfg): |
| # Determine which clang to use. |
| clang = os.getenv('CLANG') |
| |
| # If the user set clang in the environment, definitely use that and don't |
| # try to validate. |
| if clang: |
| return clang |
| |
| # Otherwise look in the path. |
| clang = Util.which('clang', cfg.environment['PATH']) |
| |
| if not clang: |
| print >>sys.stderr, "error: couldn't find 'clang' program, try setting CLANG in your environment" |
| sys.exit(1) |
| |
| return clang |
| |
| def inferClangCC(cfg, clang): |
| clangcc = os.getenv('CLANGCC') |
| |
| # If the user set clang in the environment, definitely use that and don't |
| # try to validate. |
| if clangcc: |
| return clangcc |
| |
| # Otherwise try adding -cc since we expect to be looking in a build |
| # directory. |
| if clang.endswith('.exe'): |
| clangccName = clang[:-4] + '-cc.exe' |
| else: |
| clangccName = clang + '-cc' |
| clangcc = Util.which(clangccName, cfg.environment['PATH']) |
| if not clangcc: |
| # Otherwise ask clang. |
| res = capture([clang, '-print-prog-name=clang-cc']) |
| res = res.strip() |
| if res and os.path.exists(res): |
| clangcc = res |
| |
| if not clangcc: |
| print >>sys.stderr, "error: couldn't find 'clang-cc' program, try setting CLANGCC in your environment" |
| sys.exit(1) |
| |
| return clangcc |
| |
| def getTestOutputBase(dir, testpath): |
| """getTestOutputBase(dir, testpath) - Get the full path for temporary files |
| corresponding to the given test path.""" |
| |
| # Form the output base out of the test parent directory name and the test |
| # name. FIXME: Find a better way to organize test results. |
| return os.path.join(dir, |
| os.path.basename(os.path.dirname(testpath)), |
| os.path.basename(testpath)) |