#!/usr/bin/env python3 import inspect import os from re import M import sys import hashlib import shutil import subprocess import requests import click import tempfile import johnnycanencrypt as jce torbrowser_latest_url = ( "https://aus1.torproject.org/torbrowser/update_3/release/downloads.json" ) # Common paths root_path = os.path.dirname( os.path.dirname(os.path.abspath(inspect.getfile(inspect.currentframe()))) ) working_path = os.path.join(root_path, "build", "tor") def get_latest_tor_version_urls(platform): r = requests.get(torbrowser_latest_url) if r.status_code != 200 or platform not in r.json()["downloads"]: print("Tor browser latest version url not working") sys.exit(-1) platform_url = r.json()["downloads"][platform]["ALL"]["binary"] platform_sig_url = r.json()["downloads"][platform]["ALL"]["sig"] platform_filename = platform_url.split("/")[-1] return platform_url, platform_filename, platform_sig_url def get_tor_windows(ks, torkey, win_url, win_filename, expected_win_sig): bin_filenames = ["tor.exe"] # Build paths win_path = os.path.join(working_path, win_filename) win_sig_path = os.path.join(working_path, f"{win_filename}.asc") dist_path = os.path.join(root_path, "onionshare", "resources", "tor") # Make sure the working folder exists if not os.path.exists(working_path): os.makedirs(working_path) # Make sure Tor Browser is downloaded if not os.path.exists(win_path): print("Downloading {}".format(win_url)) r = requests.get(win_url) open(win_path, "wb").write(r.content) # Make sure Tor Browser signature is downloaded if not os.path.exists(win_sig_path): print("Downloading {}".format(expected_win_sig)) r = requests.get(expected_win_sig) open(win_sig_path, "wb").write(r.content) # Verify the signature if not ks.verify_file_detached(torkey, win_path, win_sig_path): print("ERROR! The .exe file verification with the signature failed!") sys.exit(-1) print("Tor Browser verification successful!") # Extract the bits we need from the exe subprocess.Popen( [ "7z", "e", "-y", win_path, "Browser\\TorBrowser\\Tor", "-o%s" % os.path.join(working_path, "Tor"), ] ).wait() subprocess.Popen( [ "7z", "e", "-y", win_path, "Browser\\TorBrowser\\Data\\Tor\\geoip*", "-o%s" % os.path.join(working_path, "Data"), ] ).wait() # Copy into the onionshare resources if os.path.exists(dist_path): shutil.rmtree(dist_path) os.makedirs(dist_path) for filename in bin_filenames: shutil.copyfile( os.path.join(working_path, "Tor", filename), os.path.join(dist_path, filename), ) for filename in ["geoip", "geoip6"]: shutil.copyfile( os.path.join(working_path, "Data", filename), os.path.join(dist_path, filename), ) # Fetch the built-in bridges update_tor_bridges() def get_tor_macos(ks, torkey, macos_url, macos_filename, expected_macos_sig): # Build paths dmg_tor_path = os.path.join( "/Volumes", "Tor Browser", "Tor Browser.app", "Contents" ) dmg_path = os.path.join(working_path, macos_filename) dmg_sig_path = os.path.join(working_path, f"{macos_filename}.asc") dist_path = os.path.join(root_path, "onionshare", "resources", "tor") if not os.path.exists(dist_path): os.makedirs(dist_path, exist_ok=True) # Make sure the working folder exists if not os.path.exists(working_path): os.makedirs(working_path) # Make sure the zip is downloaded if not os.path.exists(dmg_path): print("Downloading {}".format(macos_url)) r = requests.get(macos_url) open(dmg_path, "wb").write(r.content) # Make sure the signature is downloaded if not os.path.exists(dmg_sig_path): print("Downloading {}".format(expected_macos_sig)) r = requests.get(expected_macos_sig) open(dmg_sig_path, "wb").write(r.content) # Verify the signature if not ks.verify_file_detached(torkey, dmg_path, dmg_sig_path): print("ERROR! The dmg file verification with the signature failed!") sys.exit(-1) print("Tor Browser verification successful!") # Mount the dmg, copy data to the working path subprocess.call(["hdiutil", "attach", dmg_path]) # Copy into dist shutil.copyfile( os.path.join(dmg_tor_path, "Resources", "TorBrowser", "Tor", "geoip"), os.path.join(dist_path, "geoip"), ) shutil.copyfile( os.path.join(dmg_tor_path, "Resources", "TorBrowser", "Tor", "geoip6"), os.path.join(dist_path, "geoip6"), ) shutil.copyfile( os.path.join(dmg_tor_path, "MacOS", "Tor", "tor.real"), os.path.join(dist_path, "tor"), ) os.chmod(os.path.join(dist_path, "tor"), 0o755) shutil.copyfile( os.path.join(dmg_tor_path, "MacOS", "Tor", "libevent-2.1.7.dylib"), os.path.join(dist_path, "libevent-2.1.7.dylib"), ) # Eject dmg subprocess.call(["diskutil", "eject", "/Volumes/Tor Browser"]) # Fetch the built-in bridges update_tor_bridges() def get_tor_linux64(ks, torkey, linux64_url, linux64_filename, expected_linux64_sig): # Build paths tarball_path = os.path.join(working_path, linux64_filename) tarball_sig_path = os.path.join(working_path, f"{linux64_filename}.asc") dist_path = os.path.join(root_path, "onionshare", "resources", "tor") # Make sure dirs exist if not os.path.exists(working_path): os.makedirs(working_path, exist_ok=True) if not os.path.exists(dist_path): os.makedirs(dist_path, exist_ok=True) # Make sure the tarball is downloaded if not os.path.exists(tarball_path): print("Downloading {}".format(linux64_url)) r = requests.get(linux64_url) open(tarball_path, "wb").write(r.content) # Make sure the signature file is downloaded if not os.path.exists(tarball_sig_path): print("Downloading {}".format(expected_linux64_sig)) r = requests.get(expected_linux64_sig) open(tarball_sig_path, "wb").write(r.content) # Verify signature if not ks.verify_file_detached(torkey, tarball_path, tarball_sig_path): print("ERROR! The tarball verification with the signature failed!") sys.exit(-1) print("Tor Browser verification successful!") # Delete extracted tarball, if it's there shutil.rmtree(os.path.join(working_path, "tor-browser"), ignore_errors=True) # Extract the tarball subprocess.call(["tar", "-xvf", tarball_path], cwd=working_path) tarball_tor_path = os.path.join( working_path, "tor-browser", "Browser", "TorBrowser" ) # Copy into dist shutil.copyfile( os.path.join(tarball_tor_path, "Data", "Tor", "geoip"), os.path.join(dist_path, "geoip"), ) shutil.copyfile( os.path.join(tarball_tor_path, "Data", "Tor", "geoip6"), os.path.join(dist_path, "geoip6"), ) shutil.copyfile( os.path.join(tarball_tor_path, "Tor", "tor"), os.path.join(dist_path, "tor"), ) os.chmod(os.path.join(dist_path, "tor"), 0o755) shutil.copyfile( os.path.join(tarball_tor_path, "Tor", "libcrypto.so.1.1"), os.path.join(dist_path, "libcrypto.so.1.1"), ) shutil.copyfile( os.path.join(tarball_tor_path, "Tor", "libevent-2.1.so.7"), os.path.join(dist_path, "libevent-2.1.so.7"), ) shutil.copyfile( os.path.join(tarball_tor_path, "Tor", "libssl.so.1.1"), os.path.join(dist_path, "libssl.so.1.1"), ) shutil.copyfile( os.path.join(tarball_tor_path, "Tor", "libstdc++", "libstdc++.so.6"), os.path.join(dist_path, "libstdc++.so.6"), ) print(f"Tor binaries extracted to: {dist_path}") # Fetch the built-in bridges update_tor_bridges() def update_tor_bridges(): """ Update the built-in Tor Bridges in OnionShare's torrc templates. """ torrc_template_dir = os.path.join( root_path, os.pardir, "cli/onionshare_cli/resources" ) endpoint = "https://bridges.torproject.org/moat/circumvention/builtin" r = requests.post( endpoint, headers={"Content-Type": "application/vnd.api+json"}, ) if r.status_code != 200: print( f"There was a problem fetching the latest built-in bridges: status_code={r.status_code}" ) sys.exit(1) result = r.json() print(f"Built-in bridges: {result}") if "errors" in result: print( f"There was a problem fetching the latest built-in bridges: errors={result['errors']}" ) sys.exit(1) for bridge_type in ["meek-azure", "obfs4", "snowflake"]: if bridge_type in result and result[bridge_type]: if bridge_type == "meek-azure": torrc_template_extension = "meek_lite_azure" else: torrc_template_extension = bridge_type torrc_template = os.path.join( root_path, torrc_template_dir, f"torrc_template-{torrc_template_extension}", ) with open(torrc_template, "w") as f: f.write(f"# Enable built-in {bridge_type} bridge\n") bridges = result[bridge_type] # Sorts the bridges numerically by IP, since they come back in # random order from the API each time, and create noisy git diff. bridges.sort(key=lambda s: s.split()[1]) for item in bridges: f.write(f"Bridge {item}\n") @click.command() @click.argument("platform") def main(platform): """ Download Tor Browser and extract tor binaries """ valid_platforms = ["win32", "win64", "macos", "linux64"] if platform not in valid_platforms: click.echo(f"platform must be one of: {valid_platforms}") return ( platform_url, platform_filename, expected_platform_sig, ) = get_latest_tor_version_urls(platform) tmpdir = tempfile.TemporaryDirectory() ks = jce.KeyStore(tmpdir.name) torkey = ks.import_key(os.path.join(root_path, "scripts", "kounek7zrdx745qydx6p59t9mqjpuhdf")) print(f"Tor GPG key: {torkey}") if platform == "win32": get_tor_windows(ks, torkey, platform_url, platform_filename, expected_platform_sig) elif platform == "win64": get_tor_windows(ks, torkey, platform_url, platform_filename, expected_platform_sig) elif platform == "macos": get_tor_macos(ks, torkey, platform_url, platform_filename, expected_platform_sig) elif platform == "linux64": get_tor_linux64(ks, torkey, platform_url, platform_filename, expected_platform_sig) else: click.echo("invalid platform") tmpdir.cleanup() if __name__ == "__main__": main()