# Copyright 2018-2020 the Deno authors. All rights reserved. MIT license. import collections import os import re import shutil import select import stat import sys import subprocess import tempfile import time if os.environ.get("NO_COLOR", None): RESET = FG_READ = FG_GREEN = "" else: RESET = "\x1b[0m" FG_RED = "\x1b[31m" FG_GREEN = "\x1b[32m" executable_suffix = ".exe" if os.name == "nt" else "" root_path = os.path.dirname(os.path.dirname(os.path.realpath(__file__))) libdeno_path = os.path.join(root_path, "core", "libdeno") tests_path = os.path.join(root_path, "tests") third_party_path = os.path.join(root_path, "third_party") def make_env(merge_env=None, env=None): if env is None: env = os.environ env = env.copy() if merge_env is None: merge_env = {} for key in merge_env.keys(): env[key] = merge_env[key] return env def add_env_path(add, env, key="PATH", prepend=False): dirs_left = env[key].split(os.pathsep) if key in env else [] dirs_right = add.split(os.pathsep) if isinstance(add, str) else add if prepend: dirs_left, dirs_right = dirs_right, dirs_left for d in dirs_right: if not d in dirs_left: dirs_left += [d] env[key] = os.pathsep.join(dirs_left) def run(args, quiet=False, cwd=None, env=None, merge_env=None, shell=None): args[0] = os.path.normpath(args[0]) env = make_env(env=env, merge_env=merge_env) if shell is None: # Use the default value for 'shell' parameter. # - Posix: do not use shell. # - Windows: use shell; this makes .bat/.cmd files work. shell = os.name == "nt" if not quiet: print " ".join([shell_quote(arg) for arg in args]) rc = subprocess.call(args, cwd=cwd, env=env, shell=shell) if rc != 0: sys.exit(rc) CmdResult = collections.namedtuple('CmdResult', ['out', 'err', 'code']) def run_output(args, quiet=False, cwd=None, env=None, merge_env=None, exit_on_fail=False): if merge_env is None: merge_env = {} args[0] = os.path.normpath(args[0]) if not quiet: print " ".join(args) env = make_env(env=env, merge_env=merge_env) shell = os.name == "nt" # Run through shell to make .bat/.cmd files work. p = subprocess.Popen( args, cwd=cwd, env=env, shell=shell, stdout=subprocess.PIPE, stderr=subprocess.PIPE) try: out, err = p.communicate() except subprocess.CalledProcessError as e: p.kill() p.wait() raise e retcode = p.poll() if retcode and exit_on_fail: sys.exit(retcode) # Ignore Windows CRLF (\r\n). return CmdResult( out.replace('\r\n', '\n'), err.replace('\r\n', '\n'), retcode) def shell_quote_win(arg): if re.search(r'[\x00-\x20"^%~!@&?*<>|()=]', arg): # Double all " quote characters. arg = arg.replace('"', '""') # Wrap the entire string in " quotes. arg = '"' + arg + '"' # Double any N backslashes that are immediately followed by a " quote. arg = re.sub(r'(\\+)(?=")', r'\1\1', arg) return arg def shell_quote(arg): if os.name == "nt": return shell_quote_win(arg) else: # Python 2 has posix shell quoting built in, albeit in a weird place. from pipes import quote return quote(arg) def symlink(target, name, target_is_dir=False): if os.name == "nt": from ctypes import WinDLL, WinError, GetLastError from ctypes.wintypes import BOOLEAN, DWORD, LPCWSTR kernel32 = WinDLL('kernel32', use_last_error=False) CreateSymbolicLinkW = kernel32.CreateSymbolicLinkW CreateSymbolicLinkW.restype = BOOLEAN CreateSymbolicLinkW.argtypes = (LPCWSTR, LPCWSTR, DWORD) # File-type symlinks can only use backslashes as separators. target = os.path.normpath(target) # If the symlink points at a directory, it needs to have the appropriate # flag set, otherwise the link will be created but it won't work. if target_is_dir: type_flag = 0x01 # SYMBOLIC_LINK_FLAG_DIRECTORY else: type_flag = 0 # Before Windows 10, creating symlinks requires admin privileges. # As of Win 10, there is a flag that allows anyone to create them. # Initially, try to use this flag. unpriv_flag = 0x02 # SYMBOLIC_LINK_FLAG_ALLOW_UNPRIVILEGED_CREATE r = CreateSymbolicLinkW(name, target, type_flag | unpriv_flag) # If it failed with ERROR_INVALID_PARAMETER, try again without the # 'allow unprivileged create' flag. if not r and GetLastError() == 87: # ERROR_INVALID_PARAMETER r = CreateSymbolicLinkW(name, target, type_flag) # Throw if unsuccessful even after the second attempt. if not r: raise WinError() else: os.symlink(target, name) def touch(fname): if os.path.exists(fname): os.utime(fname, None) else: open(fname, 'a').close() # Recursively list all files in (a subdirectory of) a git worktree. # * Optionally, glob patterns may be specified to e.g. only list files with a # certain extension. # * Untracked files are included, unless they're listed in .gitignore. # * Directory names themselves are not listed (but the files inside are). # * Submodules and their contents are ignored entirely. # * This function fails if the query matches no files. def git_ls_files(base_dir, patterns=None): base_dir = os.path.abspath(base_dir) args = [ "git", "-C", base_dir, "ls-files", "-z", "--exclude-standard", "--cached", "--modified", "--others" ] if patterns: args += ["--"] + patterns output = subprocess.check_output(args) files = [ os.path.normpath(os.path.join(base_dir, f)) for f in output.split("\0") if f != "" ] if not files: raise RuntimeError("git_ls_files: no files in '%s'" % base_dir + (" matching %s" % patterns if patterns else "")) return files # The Python equivalent of `rm -rf`. def rmtree(directory): # On Windows, shutil.rmtree() won't delete files that have a readonly bit. # Git creates some files that do. The 'onerror' callback deals with those. def rm_readonly(func, path, _): os.chmod(path, stat.S_IWRITE) func(path) shutil.rmtree(directory, onerror=rm_readonly) def build_mode(default="debug"): if "DENO_BUILD_MODE" in os.environ: return os.environ["DENO_BUILD_MODE"] elif "--release" in sys.argv: return "release" else: return default # E.G. "target/debug" def build_path(): if "DENO_BUILD_PATH" in os.environ: return os.environ["DENO_BUILD_PATH"] else: return os.path.join(root_path, "target", build_mode()) def parse_exit_code(s): codes = [int(d or 1) for d in re.findall(r'error(\d*)', s)] if len(codes) > 1: assert False, "doesn't support multiple error codes." elif len(codes) == 1: return codes[0] else: return 0 # Attempts to enable ANSI escape code support. # Returns True if successful, False if not supported. def enable_ansi_colors(): if os.name != 'nt': return True # On non-windows platforms this just works. return enable_ansi_colors_win10() # The windows 10 implementation of enable_ansi_colors. def enable_ansi_colors_win10(): import ctypes # Function factory for errcheck callbacks that raise WinError on failure. def raise_if(error_result): def check(result, _func, args): if result == error_result: raise ctypes.WinError(ctypes.get_last_error()) return args return check # Windows API types. from ctypes.wintypes import BOOL, DWORD, HANDLE, LPCWSTR, LPVOID LPDWORD = ctypes.POINTER(DWORD) # Generic constants. NULL = ctypes.c_void_p(0).value INVALID_HANDLE_VALUE = ctypes.c_void_p(-1).value ERROR_INVALID_PARAMETER = 87 # CreateFile flags. # yapf: disable GENERIC_READ = 0x80000000 GENERIC_WRITE = 0x40000000 FILE_SHARE_READ = 0x01 FILE_SHARE_WRITE = 0x02 OPEN_EXISTING = 3 # yapf: enable # Get/SetConsoleMode flags. ENABLE_VIRTUAL_TERMINAL_PROCESSING = 0x04 kernel32 = ctypes.WinDLL('kernel32', use_last_error=True) # HANDLE CreateFileW(...) CreateFileW = kernel32.CreateFileW CreateFileW.restype = HANDLE CreateFileW.errcheck = raise_if(INVALID_HANDLE_VALUE) # yapf: disable CreateFileW.argtypes = (LPCWSTR, # lpFileName DWORD, # dwDesiredAccess DWORD, # dwShareMode LPVOID, # lpSecurityAttributes DWORD, # dwCreationDisposition DWORD, # dwFlagsAndAttributes HANDLE) # hTemplateFile # yapf: enable # BOOL CloseHandle(HANDLE hObject) CloseHandle = kernel32.CloseHandle CloseHandle.restype = BOOL CloseHandle.errcheck = raise_if(False) CloseHandle.argtypes = (HANDLE, ) # BOOL GetConsoleMode(HANDLE hConsoleHandle, LPDWORD lpMode) GetConsoleMode = kernel32.GetConsoleMode GetConsoleMode.restype = BOOL GetConsoleMode.errcheck = raise_if(False) GetConsoleMode.argtypes = (HANDLE, LPDWORD) # BOOL SetConsoleMode(HANDLE hConsoleHandle, DWORD dwMode) SetConsoleMode = kernel32.SetConsoleMode SetConsoleMode.restype = BOOL SetConsoleMode.errcheck = raise_if(False) SetConsoleMode.argtypes = (HANDLE, DWORD) # Open the console output device. conout = CreateFileW("CONOUT$", GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, 0, 0) # Get the current mode. mode = DWORD() GetConsoleMode(conout, ctypes.byref(mode)) # Try to set the flag that controls ANSI escape code support. try: SetConsoleMode(conout, mode.value | ENABLE_VIRTUAL_TERMINAL_PROCESSING) except WindowsError as e: # pylint:disable=undefined-variable if e.winerror == ERROR_INVALID_PARAMETER: return False # Not supported, likely an older version of Windows. raise finally: CloseHandle(conout) return True def extract_number(pattern, string): matches = re.findall(pattern, string) if len(matches) != 1: return None return int(matches[0]) def extract_max_latency_in_milliseconds(pattern, string): matches = re.findall(pattern, string) if len(matches) != 1: return None num = float(matches[0][0]) unit = matches[0][1] if (unit == 'ms'): return num elif (unit == 'us'): return num / 1000 elif (unit == 's'): return num * 1000 def parse_wrk_output(output): stats = {} stats['req_per_sec'] = None stats['max_latency'] = None for line in output.split("\n"): if stats['req_per_sec'] is None: stats['req_per_sec'] = extract_number(r'Requests/sec:\s+(\d+)', line) if stats['max_latency'] is None: stats['max_latency'] = extract_max_latency_in_milliseconds( r'\s+99%(?:\s+(\d+.\d+)([a-z]+))', line) return stats def platform(): return {"linux2": "linux", "darwin": "mac", "win32": "win"}[sys.platform] def mkdtemp(): # On Windows, set the base directory that mkdtemp() uses explicitly. If not, # it'll use the short (8.3) path to the temp dir, which triggers the error # 'TS5009: Cannot find the common subdirectory path for the input files.' temp_dir = os.environ["TEMP"] if os.name == 'nt' else None return tempfile.mkdtemp(dir=temp_dir) # This function is copied from: # https://gist.github.com/hayd/4f46a68fc697ba8888a7b517a414583e # https://stackoverflow.com/q/52954248/1240268 def tty_capture(cmd, bytes_input, timeout=5): """Capture the output of cmd with bytes_input to stdin, with stdin, stdout and stderr as TTYs.""" # pty is not available on windows, so we import it within this function. import pty mo, so = pty.openpty() # provide tty to enable line-buffering me, se = pty.openpty() mi, si = pty.openpty() fdmap = {mo: 'stdout', me: 'stderr', mi: 'stdin'} timeout_exact = time.time() + timeout p = subprocess.Popen( cmd, bufsize=1, stdin=si, stdout=so, stderr=se, close_fds=True) os.write(mi, bytes_input) select_timeout = .04 #seconds res = {'stdout': b'', 'stderr': b''} while True: ready, _, _ = select.select([mo, me], [], [], select_timeout) if ready: for fd in ready: data = os.read(fd, 512) if not data: break res[fdmap[fd]] += data elif p.poll() is not None or time.time( ) > timeout_exact: # select timed-out break # p exited for fd in [si, so, se, mi, mo, me]: os.close(fd) # can't do it sooner: it leads to errno.EIO error p.wait() return p.returncode, res['stdout'], res['stderr']