#===----------------------------------------------------------------------===## # # 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 # #===----------------------------------------------------------------------===## from contextlib import contextmanager import errno import os import platform import signal import subprocess import sys import tempfile import threading # FIXME: Most of these functions are cribbed from LIT def to_bytes(str): # Encode to UTF-8 to get binary data. if isinstance(str, bytes): return str return str.encode('utf-8') def to_string(bytes): if isinstance(bytes, str): return bytes return to_bytes(bytes) def convert_string(bytes): try: return to_string(bytes.decode('utf-8')) except AttributeError: # 'str' object has no attribute 'decode'. return str(bytes) except UnicodeError: return str(bytes) def cleanFile(filename): try: os.remove(filename) except OSError: pass @contextmanager def guardedTempFilename(suffix='', prefix='', dir=None): # Creates and yeilds a temporary filename within a with statement. The file # is removed upon scope exit. handle, name = tempfile.mkstemp(suffix=suffix, prefix=prefix, dir=dir) os.close(handle) yield name cleanFile(name) @contextmanager def guardedFilename(name): # yeilds a filename within a with statement. The file is removed upon scope # exit. yield name cleanFile(name) @contextmanager def nullContext(value): # yeilds a variable within a with statement. No action is taken upon scope # exit. yield value def makeReport(cmd, out, err, rc): report = "Command: %s\n" % cmd report += "Exit Code: %d\n" % rc if out: report += "Standard Output:\n--\n%s--\n" % out if err: report += "Standard Error:\n--\n%s--\n" % err report += '\n' return report def capture(args, env=None): """capture(command) - Run the given command (or argv list) in a shell and return the standard output. Raises a CalledProcessError if the command exits with a non-zero status.""" p = subprocess.Popen(args, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=env) out, err = p.communicate() out = convert_string(out) err = convert_string(err) if p.returncode != 0: raise subprocess.CalledProcessError(cmd=args, returncode=p.returncode, output="{}\n{}".format(out, err)) return out def which(command, paths = None): """which(command, [paths]) - Look up the given command in the paths string (or the PATH environment variable, if unspecified).""" if paths is None: paths = os.environ.get('PATH','') # Check for absolute match first. if os.path.isfile(command): return command # Would be nice if Python had a lib function for this. if not paths: paths = os.defpath # Get suffixes to search. # On Cygwin, 'PATHEXT' may exist but it should not be used. if os.pathsep == ';': pathext = os.environ.get('PATHEXT', '').split(';') else: pathext = [''] # Search the paths... for path in paths.split(os.pathsep): for ext in pathext: p = os.path.join(path, command + ext) if os.path.exists(p) and not os.path.isdir(p): return p return None def checkToolsPath(dir, tools): for tool in tools: if not os.path.exists(os.path.join(dir, tool)): return False return True def whichTools(tools, paths): for path in paths.split(os.pathsep): if checkToolsPath(path, tools): return path return None def mkdir_p(path): """mkdir_p(path) - Make the "path" directory, if it does not exist; this will also make directories for any missing parent directories.""" if not path or os.path.exists(path): return parent = os.path.dirname(path) if parent != path: mkdir_p(parent) try: os.mkdir(path) except OSError: e = sys.exc_info()[1] # Ignore EEXIST, which may occur during a race condition. if e.errno != errno.EEXIST: raise class ExecuteCommandTimeoutException(Exception): def __init__(self, msg, out, err, exitCode): assert isinstance(msg, str) assert isinstance(out, str) assert isinstance(err, str) assert isinstance(exitCode, int) self.msg = msg self.out = out self.err = err self.exitCode = exitCode # Close extra file handles on UNIX (on Windows this cannot be done while # also redirecting input). kUseCloseFDs = not (platform.system() == 'Windows') def executeCommand(command, cwd=None, env=None, input=None, timeout=0): """ Execute command ``command`` (list of arguments or string) with * working directory ``cwd`` (str), use None to use the current working directory * environment ``env`` (dict), use None for none * Input to the command ``input`` (str), use string to pass no input. * Max execution time ``timeout`` (int) seconds. Use 0 for no timeout. Returns a tuple (out, err, exitCode) where * ``out`` (str) is the standard output of running the command * ``err`` (str) is the standard error of running the command * ``exitCode`` (int) is the exitCode of running the command If the timeout is hit an ``ExecuteCommandTimeoutException`` is raised. """ if input is not None: input = to_bytes(input) p = subprocess.Popen(command, cwd=cwd, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=env, close_fds=kUseCloseFDs) timerObject = None # FIXME: Because of the way nested function scopes work in Python 2.x we # need to use a reference to a mutable object rather than a plain # bool. In Python 3 we could use the "nonlocal" keyword but we need # to support Python 2 as well. hitTimeOut = [False] try: if timeout > 0: def killProcess(): # We may be invoking a shell so we need to kill the # process and all its children. hitTimeOut[0] = True killProcessAndChildren(p.pid) timerObject = threading.Timer(timeout, killProcess) timerObject.start() out,err = p.communicate(input=input) exitCode = p.wait() finally: if timerObject != None: timerObject.cancel() # Ensure the resulting output is always of string type. out = convert_string(out) err = convert_string(err) if hitTimeOut[0]: raise ExecuteCommandTimeoutException( msg='Reached timeout of {} seconds'.format(timeout), out=out, err=err, exitCode=exitCode ) # Detect Ctrl-C in subprocess. if exitCode == -signal.SIGINT: raise KeyboardInterrupt return out, err, exitCode def killProcessAndChildren(pid): """ This function kills a process with ``pid`` and all its running children (recursively). It is currently implemented using the psutil module which provides a simple platform neutral implementation. TODO: Reimplement this without using psutil so we can remove our dependency on it. """ if platform.system() == 'AIX': subprocess.call('kill -kill $(ps -o pid= -L{})'.format(pid), shell=True) else: import psutil try: psutilProc = psutil.Process(pid) # Handle the different psutil API versions try: # psutil >= 2.x children_iterator = psutilProc.children(recursive=True) except AttributeError: # psutil 1.x children_iterator = psutilProc.get_children(recursive=True) for child in children_iterator: try: child.kill() except psutil.NoSuchProcess: pass psutilProc.kill() except psutil.NoSuchProcess: pass def executeCommandVerbose(cmd, *args, **kwargs): """ Execute a command and print its output on failure. """ out, err, exitCode = executeCommand(cmd, *args, **kwargs) if exitCode != 0: report = makeReport(cmd, out, err, exitCode) report += "\n\nFailed!" sys.stderr.write('%s\n' % report) return out, err, exitCode def executeCommandOrDie(cmd, *args, **kwargs): """ Execute a command and print its output on failure. """ out, err, exitCode = executeCommand(cmd, *args, **kwargs) if exitCode != 0: report = makeReport(cmd, out, err, exitCode) report += "\n\nFailed!" sys.stderr.write('%s\n' % report) sys.exit(exitCode) return out, err, exitCode