#!/usr/bin/env python3 # this module is part of undetected_chromedriver from distutils.version import LooseVersion import io import json import logging import os import pathlib import platform import random import re import shutil import string import sys import time from urllib.request import urlopen from urllib.request import urlretrieve import zipfile from multiprocessing import Lock logger = logging.getLogger(__name__) IS_POSIX = sys.platform.startswith(("darwin", "cygwin", "linux", "linux2")) class Patcher(object): lock = Lock() exe_name = "chromedriver%s" platform = sys.platform if platform.endswith("win32"): d = "~/appdata/roaming/undetected_chromedriver" elif "LAMBDA_TASK_ROOT" in os.environ: d = "/tmp/undetected_chromedriver" elif platform.startswith(("linux", "linux2")): d = "~/.local/share/undetected_chromedriver" elif platform.endswith("darwin"): d = "~/Library/Application Support/undetected_chromedriver" else: d = "~/.undetected_chromedriver" data_path = os.path.abspath(os.path.expanduser(d)) def __init__( self, executable_path=None, force=False, version_main: int = 0, user_multi_procs=False, ): """ Args: executable_path: None = automatic a full file path to the chromedriver executable force: False terminate processes which are holding lock version_main: 0 = auto specify main chrome version (rounded, ex: 82) """ self.force = force self._custom_exe_path = False prefix = "undetected" self.user_multi_procs = user_multi_procs # Needs to be called before self.exe_name is accessed self._set_platform_name() if not os.path.exists(self.data_path): os.makedirs(self.data_path, exist_ok=True) if not executable_path: self.executable_path = os.path.join( self.data_path, "_".join([prefix, self.exe_name]) ) if not IS_POSIX: if executable_path: if not executable_path[-4:] == ".exe": executable_path += ".exe" self.zip_path = os.path.join(self.data_path, prefix) if not executable_path: if not self.user_multi_procs: self.executable_path = os.path.abspath( os.path.join(".", self.executable_path) ) if executable_path: self._custom_exe_path = True self.executable_path = executable_path # Set the correct repository to download the Chromedriver from self.is_old_chromedriver = version_main and version_main <= 114 if self.is_old_chromedriver: self.url_repo = "https://chromedriver.storage.googleapis.com" else: self.url_repo = "https://googlechromelabs.github.io/chrome-for-testing" self.version_main = version_main self.version_full = None def _set_platform_name(self): """ Set the platform and exe name based on the platform undetected_chromedriver is running on in order to download the correct chromedriver. """ if self.platform.endswith("win32"): self.platform_name = "win32" self.exe_name %= ".exe" if self.platform.endswith(("linux", "linux2")): self.platform_name = "linux64" self.exe_name %= "" if self.platform.endswith("darwin"): self.platform_name = self._get_mac_platform_name() self.exe_name %= "" def _get_mac_platform_name(self): """ The Mac platform name changes based on the architecture and Chromedriver version desired """ platform_name = "mac" # Matches the platform as a substring so values like 'arm64' and 'armv7l' work is_arm_arch = any(p in platform.machine() for p in ["aarch64", "arm"]) if self.is_old_chromedriver: if is_arm_arch: platform_name += "_arm64" else: platform_name += "64" else: if is_arm_arch: platform_name += "-arm64" else: platform_name += "-x64" return platform_name def auto(self, executable_path=None, force=False, version_main=None, _=None): """ Args: executable_path: force: version_main: Returns: """ p = pathlib.Path(self.data_path) if self.user_multi_procs: with Lock(): files = list(p.rglob("*chromedriver*")) most_recent = max(files, key=lambda f: f.stat().st_mtime) files.remove(most_recent) list(map(lambda f: f.unlink(), files)) if self.is_binary_patched(most_recent): self.executable_path = str(most_recent) return True if executable_path: self.executable_path = executable_path self._custom_exe_path = True if self._custom_exe_path: ispatched = self.is_binary_patched(self.executable_path) if not ispatched: return self.patch_exe() else: return if version_main: self.version_main = version_main if force is True: self.force = force try: os.unlink(self.executable_path) except PermissionError: if self.force: self.force_kill_instances(self.executable_path) return self.auto(force=not self.force) try: if self.is_binary_patched(): # assumes already running AND patched return True except PermissionError: pass # return False except FileNotFoundError: pass release = self.fetch_release_number() self.version_main = release.version[0] self.version_full = release self.unzip_package(self.fetch_package()) return self.patch() def driver_binary_in_use(self, path: str = None) -> bool: """ naive test to check if a found chromedriver binary is currently in use Args: path: a string or PathLike object to the binary to check. if not specified, we check use this object's executable_path """ if not path: path = self.executable_path p = pathlib.Path(path) if not p.exists(): raise OSError("file does not exist: %s" % p) try: with open(p, mode="a+b") as fs: exc = [] try: fs.seek(0, 0) except PermissionError as e: exc.append(e) # since some systems apprently allow seeking # we conduct another test try: fs.readline() except PermissionError as e: exc.append(e) if exc: return True return False # ok safe to assume this is in use except Exception as e: # logger.exception("whoops ", e) pass def cleanup_unused_files(self): p = pathlib.Path(self.data_path) items = list(p.glob("*undetected*")) for item in items: try: item.unlink() except: pass def patch(self): self.patch_exe() return self.is_binary_patched() def fetch_release_number(self): """ Gets the latest major version available, or the latest major version of self.target_version if set explicitly. :return: version string :rtype: LooseVersion """ # Endpoint for old versions of Chromedriver (114 and below) if self.is_old_chromedriver: path = f"/latest_release_{self.version_main}" path = path.upper() logger.debug("getting release number from %s" % path) return LooseVersion(urlopen(self.url_repo + path).read().decode()) # Endpoint for new versions of Chromedriver (115+) if not self.version_main: # Fetch the latest version path = "/last-known-good-versions-with-downloads.json" logger.debug("getting release number from %s" % path) with urlopen(self.url_repo + path) as conn: response = conn.read().decode() last_versions = json.loads(response) return LooseVersion(last_versions["channels"]["Stable"]["version"]) # Fetch the latest minor version of the major version provided path = "/latest-versions-per-milestone-with-downloads.json" logger.debug("getting release number from %s" % path) with urlopen(self.url_repo + path) as conn: response = conn.read().decode() major_versions = json.loads(response) return LooseVersion(major_versions["milestones"][str(self.version_main)]["version"]) def parse_exe_version(self): with io.open(self.executable_path, "rb") as f: for line in iter(lambda: f.readline(), b""): match = re.search(rb"platform_handle\x00content\x00([0-9.]*)", line) if match: return LooseVersion(match[1].decode()) def fetch_package(self): """ Downloads ChromeDriver from source :return: path to downloaded file """ zip_name = f"chromedriver_{self.platform_name}.zip" if self.is_old_chromedriver: download_url = "%s/%s/%s" % (self.url_repo, self.version_full.vstring, zip_name) else: zip_name = zip_name.replace("_", "-", 1) download_url = "https://edgedl.me.gvt1.com/edgedl/chrome/chrome-for-testing/%s/%s/%s" download_url %= (self.version_full.vstring, self.platform_name, zip_name) logger.debug("downloading from %s" % download_url) return urlretrieve(download_url)[0] def unzip_package(self, fp): """ Does what it says :return: path to unpacked executable """ exe_path = self.exe_name if not self.is_old_chromedriver: # The new chromedriver unzips into its own folder zip_name = f"chromedriver-{self.platform_name}" exe_path = os.path.join(zip_name, self.exe_name) logger.debug("unzipping %s" % fp) try: os.unlink(self.zip_path) except (FileNotFoundError, OSError): pass os.makedirs(self.zip_path, mode=0o755, exist_ok=True) with zipfile.ZipFile(fp, mode="r") as zf: zf.extractall(self.zip_path) os.rename(os.path.join(self.zip_path, exe_path), self.executable_path) os.remove(fp) shutil.rmtree(self.zip_path) os.chmod(self.executable_path, 0o755) return self.executable_path @staticmethod def force_kill_instances(exe_name): """ kills running instances. :param: executable name to kill, may be a path as well :return: True on success else False """ exe_name = os.path.basename(exe_name) if IS_POSIX: r = os.system("kill -f -9 $(pidof %s)" % exe_name) else: r = os.system("taskkill /f /im %s" % exe_name) return not r @staticmethod def gen_random_cdc(): cdc = random.choices(string.ascii_letters, k=27) return "".join(cdc).encode() def is_binary_patched(self, executable_path=None): executable_path = executable_path or self.executable_path try: with io.open(executable_path, "rb") as fh: return fh.read().find(b"undetected chromedriver") != -1 except FileNotFoundError: return False def patch_exe(self): start = time.perf_counter() logger.info("patching driver executable %s" % self.executable_path) with io.open(self.executable_path, "r+b") as fh: content = fh.read() # match_injected_codeblock = re.search(rb"{window.*;}", content) match_injected_codeblock = re.search(rb"\{window\.cdc.*?;\}", content) if match_injected_codeblock: target_bytes = match_injected_codeblock[0] new_target_bytes = ( b'{console.log("undetected chromedriver 1337!")}'.ljust( len(target_bytes), b" " ) ) new_content = content.replace(target_bytes, new_target_bytes) if new_content == content: logger.warning( "something went wrong patching the driver binary. could not find injection code block" ) else: logger.debug( "found block:\n%s\nreplacing with:\n%s" % (target_bytes, new_target_bytes) ) fh.seek(0) fh.write(new_content) logger.debug( "patching took us {:.2f} seconds".format(time.perf_counter() - start) ) def __repr__(self): return "{0:s}({1:s})".format( self.__class__.__name__, self.executable_path, ) def __del__(self): if self._custom_exe_path: # if the driver binary is specified by user # we assume it is important enough to not delete it return else: timeout = 3 # stop trying after this many seconds t = time.monotonic() now = lambda: time.monotonic() while now() - t > timeout: # we don't want to wait until the end of time try: if self.user_multi_procs: break os.unlink(self.executable_path) logger.debug("successfully unlinked %s" % self.executable_path) break except (OSError, RuntimeError, PermissionError): time.sleep(0.01) continue except FileNotFoundError: break