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|
#!/usr/bin/env python3
# Copyright (c) 2020-2021 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
"""Script for verifying Bitcoin Core release binaries.
This script attempts to download the sum file SHA256SUMS and corresponding
signature file SHA256SUMS.asc from bitcoincore.org and bitcoin.org and
compares them.
The sum-signature file is signed by a number of builder keys. This script
ensures that there is a minimum threshold of signatures from pubkeys that
we trust. This trust is articulated on the basis of configuration options
here, but by default is based upon local GPG trust settings.
The builder keys are available in the guix.sigs repo:
https://github.com/bitcoin-core/guix.sigs/tree/main/builder-keys
If a minimum good, trusted signature threshold is met on the sum file, we then
download the files specified in SHA256SUMS, and check if the hashes of these
files match those that are specified. The script returns 0 if everything passes
the checks. It returns 1 if either the signature check or the hash check
doesn't pass. If an error occurs the return value is >= 2.
Logging output goes to stderr and final binary verification data goes to stdout.
JSON output can by obtained by setting env BINVERIFY_JSON=1.
"""
import argparse
import difflib
import json
import logging
import os
import subprocess
import typing as t
import re
import sys
import shutil
import tempfile
import textwrap
import urllib.request
import urllib.error
import enum
from hashlib import sha256
from pathlib import PurePath, Path
# The primary host; this will fail if we can't retrieve files from here.
HOST1 = "https://bitcoincore.org"
HOST2 = "https://bitcoin.org"
VERSIONPREFIX = "bitcoin-core-"
SUMS_FILENAME = 'SHA256SUMS'
SIGNATUREFILENAME = f"{SUMS_FILENAME}.asc"
class ReturnCode(enum.IntEnum):
SUCCESS = 0
INTEGRITY_FAILURE = 1
FILE_GET_FAILED = 4
FILE_MISSING_FROM_ONE_HOST = 5
FILES_NOT_EQUAL = 6
NO_BINARIES_MATCH = 7
NOT_ENOUGH_GOOD_SIGS = 9
BINARY_DOWNLOAD_FAILED = 10
BAD_VERSION = 11
def set_up_logger(is_verbose: bool = True) -> logging.Logger:
"""Set up a logger that writes to stderr."""
log = logging.getLogger(__name__)
log.setLevel(logging.INFO if is_verbose else logging.WARNING)
console = logging.StreamHandler(sys.stderr) # log to stderr
console.setLevel(logging.DEBUG)
formatter = logging.Formatter('[%(levelname)s] %(message)s')
console.setFormatter(formatter)
log.addHandler(console)
return log
log = set_up_logger()
def indent(output: str) -> str:
return textwrap.indent(output, ' ')
def bool_from_env(key, default=False) -> bool:
if key not in os.environ:
return default
raw = os.environ[key]
if raw.lower() in ('1', 'true'):
return True
elif raw.lower() in ('0', 'false'):
return False
raise ValueError(f"Unrecognized environment value {key}={raw!r}")
VERSION_FORMAT = "<major>.<minor>[.<patch>][-rc[0-9]][-platform]"
VERSION_EXAMPLE = "22.0-x86_64 or 23.1-rc1-darwin"
def parse_version_string(version_str):
parts = version_str.split('-')
version_base = parts[0]
version_rc = ""
version_os = ""
if len(parts) == 2: # "<version>-rcN" or "version-platform"
if "rc" in parts[1]:
version_rc = parts[1]
else:
version_os = parts[1]
elif len(parts) == 3: # "<version>-rcN-platform"
version_rc = parts[1]
version_os = parts[2]
return version_base, version_rc, version_os
def download_with_wget(remote_file, local_file):
result = subprocess.run(['wget', '-O', local_file, remote_file],
stderr=subprocess.STDOUT, stdout=subprocess.PIPE)
return result.returncode == 0, result.stdout.decode().rstrip()
def download_lines_with_urllib(url) -> tuple[bool, list[str]]:
"""Get (success, text lines of a file) over HTTP."""
try:
return (True, [
line.strip().decode() for line in urllib.request.urlopen(url).readlines()])
except urllib.error.HTTPError as e:
log.warning(f"HTTP request to {url} failed (HTTPError): {e}")
except Exception as e:
log.warning(f"HTTP request to {url} failed ({e})")
return (False, [])
def verify_with_gpg(
filename,
signature_filename,
output_filename: t.Optional[str] = None
) -> tuple[int, str]:
with tempfile.NamedTemporaryFile() as status_file:
args = [
'gpg', '--yes', '--verify', '--verify-options', 'show-primary-uid-only', "--status-file", status_file.name,
'--output', output_filename if output_filename else '', signature_filename, filename]
env = dict(os.environ, LANGUAGE='en')
result = subprocess.run(args, stderr=subprocess.STDOUT, stdout=subprocess.PIPE, env=env)
gpg_data = status_file.read().decode().rstrip()
log.debug(f'Result from GPG ({result.returncode}): {result.stdout.decode()}')
log.debug(f"{gpg_data}")
return result.returncode, gpg_data
def remove_files(filenames):
for filename in filenames:
os.remove(filename)
class SigData:
"""GPG signature data as parsed from GPG stdout."""
def __init__(self):
self.key = None
self.name = ""
self.trusted = False
self.status = ""
def __bool__(self):
return self.key is not None
def __repr__(self):
return (
"SigData(%r, %r, trusted=%s, status=%r)" %
(self.key, self.name, self.trusted, self.status))
def parse_gpg_result(
output: list[str]
) -> tuple[list[SigData], list[SigData], list[SigData]]:
"""Returns good, unknown, and bad signatures from GPG stdout."""
good_sigs: list[SigData] = []
unknown_sigs: list[SigData] = []
bad_sigs: list[SigData] = []
total_resolved_sigs = 0
# Ensure that all lines we match on include a prefix that prevents malicious input
# from fooling the parser.
def line_begins_with(patt: str, line: str) -> t.Optional[re.Match]:
return re.match(r'^(\[GNUPG:\])\s+' + patt, line)
curr_sigs = unknown_sigs
curr_sigdata = SigData()
for line in output:
if line_begins_with(r"NEWSIG(?:\s|$)", line):
total_resolved_sigs += 1
if curr_sigdata:
curr_sigs.append(curr_sigdata)
curr_sigdata = SigData()
newsig_split = line.split()
if len(newsig_split) == 3:
curr_sigdata.name = newsig_split[2]
elif line_begins_with(r"GOODSIG(?:\s|$)", line):
curr_sigdata.key, curr_sigdata.name = line.split(maxsplit=3)[2:4]
curr_sigs = good_sigs
elif line_begins_with(r"EXPKEYSIG(?:\s|$)", line):
curr_sigdata.key, curr_sigdata.name = line.split(maxsplit=3)[2:4]
curr_sigs = good_sigs
curr_sigdata.status = "expired"
elif line_begins_with(r"REVKEYSIG(?:\s|$)", line):
curr_sigdata.key, curr_sigdata.name = line.split(maxsplit=3)[2:4]
curr_sigs = good_sigs
curr_sigdata.status = "revoked"
elif line_begins_with(r"BADSIG(?:\s|$)", line):
curr_sigdata.key, curr_sigdata.name = line.split(maxsplit=3)[2:4]
curr_sigs = bad_sigs
elif line_begins_with(r"ERRSIG(?:\s|$)", line):
curr_sigdata.key, _, _, _, _, _ = line.split()[2:8]
curr_sigs = unknown_sigs
elif line_begins_with(r"TRUST_(UNDEFINED|NEVER)(?:\s|$)", line):
curr_sigdata.trusted = False
elif line_begins_with(r"TRUST_(MARGINAL|FULLY|ULTIMATE)(?:\s|$)", line):
curr_sigdata.trusted = True
# The last one won't have been added, so add it now
assert curr_sigdata
curr_sigs.append(curr_sigdata)
all_found = len(good_sigs + bad_sigs + unknown_sigs)
if all_found != total_resolved_sigs:
raise RuntimeError(
f"failed to evaluate all signatures: found {all_found} "
f"but expected {total_resolved_sigs}")
return (good_sigs, unknown_sigs, bad_sigs)
def files_are_equal(filename1, filename2):
with open(filename1, 'rb') as file1:
contents1 = file1.read()
with open(filename2, 'rb') as file2:
contents2 = file2.read()
eq = contents1 == contents2
if not eq:
with open(filename1, 'r', encoding='utf-8') as f1, \
open(filename2, 'r', encoding='utf-8') as f2:
f1lines = f1.readlines()
f2lines = f2.readlines()
diff = indent(
''.join(difflib.unified_diff(f1lines, f2lines)))
log.warning(f"found diff in files ({filename1}, {filename2}):\n{diff}\n")
return eq
def get_files_from_hosts_and_compare(
hosts: list[str], path: str, filename: str, require_all: bool = False
) -> ReturnCode:
"""
Retrieve the same file from a number of hosts and ensure they have the same contents.
The first host given will be treated as the "primary" host, and is required to succeed.
Args:
filename: for writing the file locally.
"""
assert len(hosts) > 1
primary_host = hosts[0]
other_hosts = hosts[1:]
got_files = []
def join_url(host: str) -> str:
return host.rstrip('/') + '/' + path.lstrip('/')
url = join_url(primary_host)
success, output = download_with_wget(url, filename)
if not success:
log.error(
f"couldn't fetch file ({url}). "
"Have you specified the version number in the following format?\n"
f"{VERSION_FORMAT} "
f"(example: {VERSION_EXAMPLE})\n"
f"wget output:\n{indent(output)}")
return ReturnCode.FILE_GET_FAILED
else:
log.info(f"got file {url} as {filename}")
got_files.append(filename)
for i, host in enumerate(other_hosts):
url = join_url(host)
fname = filename + f'.{i + 2}'
success, output = download_with_wget(url, fname)
if require_all and not success:
log.error(
f"{host} failed to provide file ({url}), but {primary_host} did?\n"
f"wget output:\n{indent(output)}")
return ReturnCode.FILE_MISSING_FROM_ONE_HOST
elif not success:
log.warning(
f"{host} failed to provide file ({url}). "
f"Continuing based solely upon {primary_host}.")
else:
log.info(f"got file {url} as {fname}")
got_files.append(fname)
for i, got_file in enumerate(got_files):
if got_file == got_files[-1]:
break # break on last file, nothing after it to compare to
compare_to = got_files[i + 1]
if not files_are_equal(got_file, compare_to):
log.error(f"files not equal: {got_file} and {compare_to}")
return ReturnCode.FILES_NOT_EQUAL
return ReturnCode.SUCCESS
def check_multisig(sums_file: str, sigfilename: str, args: argparse.Namespace) -> tuple[int, str, list[SigData], list[SigData], list[SigData]]:
# check signature
#
# We don't write output to a file because this command will almost certainly
# fail with GPG exit code '2' (and so not writing to --output) because of the
# likely presence of multiple untrusted signatures.
retval, output = verify_with_gpg(sums_file, sigfilename)
if args.verbose:
log.info(f"gpg output:\n{indent(output)}")
good, unknown, bad = parse_gpg_result(output.splitlines())
if unknown and args.import_keys:
# Retrieve unknown keys and then try GPG again.
for unsig in unknown:
if prompt_yn(f" ? Retrieve key {unsig.key} ({unsig.name})? (y/N) "):
ran = subprocess.run(
["gpg", "--keyserver", args.keyserver, "--recv-keys", unsig.key])
if ran.returncode != 0:
log.warning(f"failed to retrieve key {unsig.key}")
# Reparse the GPG output now that we have more keys
retval, output = verify_with_gpg(sums_file, sigfilename)
good, unknown, bad = parse_gpg_result(output.splitlines())
return retval, output, good, unknown, bad
def prompt_yn(prompt) -> bool:
"""Return true if the user inputs 'y'."""
got = ''
while got not in ['y', 'n']:
got = input(prompt).lower()
return got == 'y'
def verify_shasums_signature(
signature_file_path: str, sums_file_path: str, args: argparse.Namespace
) -> tuple[
ReturnCode, list[SigData], list[SigData], list[SigData], list[SigData]
]:
min_good_sigs = args.min_good_sigs
gpg_allowed_codes = [0, 2] # 2 is returned when untrusted signatures are present.
gpg_retval, gpg_output, good, unknown, bad = check_multisig(sums_file_path, signature_file_path, args)
if gpg_retval not in gpg_allowed_codes:
if gpg_retval == 1:
log.critical(f"Bad signature (code: {gpg_retval}).")
else:
log.critical(f"unexpected GPG exit code ({gpg_retval})")
log.error(f"gpg output:\n{indent(gpg_output)}")
return (ReturnCode.INTEGRITY_FAILURE, [], [], [], [])
# Decide which keys we trust, though not "trust" in the GPG sense, but rather
# which pubkeys convince us that this sums file is legitimate. In other words,
# which pubkeys within the Bitcoin community do we trust for the purposes of
# binary verification?
trusted_keys = set()
if args.trusted_keys:
trusted_keys |= set(args.trusted_keys.split(','))
# Tally signatures and make sure we have enough goods to fulfill
# our threshold.
good_trusted = [sig for sig in good if sig.trusted or sig.key in trusted_keys]
good_untrusted = [sig for sig in good if sig not in good_trusted]
num_trusted = len(good_trusted) + len(good_untrusted)
log.info(f"got {num_trusted} good signatures")
if num_trusted < min_good_sigs:
log.info("Maybe you need to import "
f"(`gpg --keyserver {args.keyserver} --recv-keys <key-id>`) "
"some of the following keys: ")
log.info('')
for sig in unknown:
log.info(f" {sig.key} ({sig.name})")
log.info('')
log.error(
"not enough trusted sigs to meet threshold "
f"({num_trusted} vs. {min_good_sigs})")
return (ReturnCode.NOT_ENOUGH_GOOD_SIGS, [], [], [], [])
for sig in good_trusted:
log.info(f"GOOD SIGNATURE: {sig}")
for sig in good_untrusted:
log.info(f"GOOD SIGNATURE (untrusted): {sig}")
for sig in [sig for sig in good if sig.status == 'expired']:
log.warning(f"key {sig.key} for {sig.name} is expired")
for sig in bad:
log.warning(f"BAD SIGNATURE: {sig}")
for sig in unknown:
log.warning(f"UNKNOWN SIGNATURE: {sig}")
return (ReturnCode.SUCCESS, good_trusted, good_untrusted, unknown, bad)
def parse_sums_file(sums_file_path: str, filename_filter: list[str]) -> list[list[str]]:
# extract hashes/filenames of binaries to verify from hash file;
# each line has the following format: "<hash> <binary_filename>"
with open(sums_file_path, 'r', encoding='utf8') as hash_file:
return [line.split()[:2] for line in hash_file if len(filename_filter) == 0 or any(f in line for f in filename_filter)]
def verify_binary_hashes(hashes_to_verify: list[list[str]]) -> tuple[ReturnCode, dict[str, str]]:
offending_files = []
files_to_hashes = {}
for hash_expected, binary_filename in hashes_to_verify:
with open(binary_filename, 'rb') as binary_file:
hash_calculated = sha256(binary_file.read()).hexdigest()
if hash_calculated != hash_expected:
offending_files.append(binary_filename)
else:
files_to_hashes[binary_filename] = hash_calculated
if offending_files:
joined_files = '\n'.join(offending_files)
log.critical(
"Hashes don't match.\n"
f"Offending files:\n{joined_files}")
return (ReturnCode.INTEGRITY_FAILURE, files_to_hashes)
return (ReturnCode.SUCCESS, files_to_hashes)
def verify_published_handler(args: argparse.Namespace) -> ReturnCode:
WORKINGDIR = Path(tempfile.gettempdir()) / f"bitcoin_verify_binaries.{args.version}"
def cleanup():
log.info("cleaning up files")
os.chdir(Path.home())
shutil.rmtree(WORKINGDIR)
# determine remote dir dependent on provided version string
try:
version_base, version_rc, os_filter = parse_version_string(args.version)
version_tuple = [int(i) for i in version_base.split('.')]
except Exception as e:
log.debug(e)
log.error(f"unable to parse version; expected format is {VERSION_FORMAT}")
log.error(f" e.g. {VERSION_EXAMPLE}")
return ReturnCode.BAD_VERSION
remote_dir = f"/bin/{VERSIONPREFIX}{version_base}/"
if version_rc:
remote_dir += f"test.{version_rc}/"
remote_sigs_path = remote_dir + SIGNATUREFILENAME
remote_sums_path = remote_dir + SUMS_FILENAME
# create working directory
os.makedirs(WORKINGDIR, exist_ok=True)
os.chdir(WORKINGDIR)
hosts = [HOST1, HOST2]
got_sig_status = get_files_from_hosts_and_compare(
hosts, remote_sigs_path, SIGNATUREFILENAME, args.require_all_hosts)
if got_sig_status != ReturnCode.SUCCESS:
return got_sig_status
# Multi-sig verification is available after 22.0.
if version_tuple[0] < 22:
log.error("Version too old - single sig not supported. Use a previous "
"version of this script from the repo.")
return ReturnCode.BAD_VERSION
got_sums_status = get_files_from_hosts_and_compare(
hosts, remote_sums_path, SUMS_FILENAME, args.require_all_hosts)
if got_sums_status != ReturnCode.SUCCESS:
return got_sums_status
# Verify the signature on the SHA256SUMS file
sigs_status, good_trusted, good_untrusted, unknown, bad = verify_shasums_signature(SIGNATUREFILENAME, SUMS_FILENAME, args)
if sigs_status != ReturnCode.SUCCESS:
if sigs_status == ReturnCode.INTEGRITY_FAILURE:
cleanup()
return sigs_status
# Extract hashes and filenames
hashes_to_verify = parse_sums_file(SUMS_FILENAME, [os_filter])
if not hashes_to_verify:
log.error("no files matched the platform specified")
return ReturnCode.NO_BINARIES_MATCH
# remove binaries that are known not to be hosted by bitcoincore.org
fragments_to_remove = ['-unsigned', '-debug', '-codesignatures']
for fragment in fragments_to_remove:
nobinaries = [i for i in hashes_to_verify if fragment in i[1]]
if nobinaries:
remove_str = ', '.join(i[1] for i in nobinaries)
log.info(
f"removing *{fragment} binaries ({remove_str}) from verification "
f"since {HOST1} does not host *{fragment} binaries")
hashes_to_verify = [i for i in hashes_to_verify if fragment not in i[1]]
# download binaries
for _, binary_filename in hashes_to_verify:
log.info(f"downloading {binary_filename} to {WORKINGDIR}")
success, output = download_with_wget(
HOST1 + remote_dir + binary_filename, binary_filename)
if not success:
log.error(
f"failed to download {binary_filename}\n"
f"wget output:\n{indent(output)}")
return ReturnCode.BINARY_DOWNLOAD_FAILED
# verify hashes
hashes_status, files_to_hashes = verify_binary_hashes(hashes_to_verify)
if hashes_status != ReturnCode.SUCCESS:
return hashes_status
if args.cleanup:
cleanup()
else:
log.info(f"did not clean up {WORKINGDIR}")
if args.json:
output = {
'good_trusted_sigs': [str(s) for s in good_trusted],
'good_untrusted_sigs': [str(s) for s in good_untrusted],
'unknown_sigs': [str(s) for s in unknown],
'bad_sigs': [str(s) for s in bad],
'verified_binaries': files_to_hashes,
}
print(json.dumps(output, indent=2))
else:
for filename in files_to_hashes:
print(f"VERIFIED: {filename}")
return ReturnCode.SUCCESS
def verify_binaries_handler(args: argparse.Namespace) -> ReturnCode:
binary_to_basename = {}
for file in args.binary:
binary_to_basename[PurePath(file).name] = file
sums_sig_path = None
if args.sums_sig_file:
sums_sig_path = Path(args.sums_sig_file)
else:
log.info(f"No signature file specified, assuming it is {args.sums_file}.asc")
sums_sig_path = Path(args.sums_file).with_suffix(".asc")
# Verify the signature on the SHA256SUMS file
sigs_status, good_trusted, good_untrusted, unknown, bad = verify_shasums_signature(str(sums_sig_path), args.sums_file, args)
if sigs_status != ReturnCode.SUCCESS:
return sigs_status
# Extract hashes and filenames
hashes_to_verify = parse_sums_file(args.sums_file, [k for k, n in binary_to_basename.items()])
if not hashes_to_verify:
log.error(f"No files in {args.sums_file} match the specified binaries")
return ReturnCode.NO_BINARIES_MATCH
# Make sure all files are accounted for
sums_file_path = Path(args.sums_file)
missing_files = []
files_to_hash = []
if len(binary_to_basename) > 0:
for file_hash, file in hashes_to_verify:
files_to_hash.append([file_hash, binary_to_basename[file]])
del binary_to_basename[file]
if len(binary_to_basename) > 0:
log.error(f"Not all specified binaries are in {args.sums_file}")
return ReturnCode.NO_BINARIES_MATCH
else:
log.info(f"No binaries specified, assuming all files specified in {args.sums_file} are located relatively")
for file_hash, file in hashes_to_verify:
file_path = Path(sums_file_path.parent.joinpath(file))
if file_path.exists():
files_to_hash.append([file_hash, str(file_path)])
else:
missing_files.append(file)
# verify hashes
hashes_status, files_to_hashes = verify_binary_hashes(files_to_hash)
if hashes_status != ReturnCode.SUCCESS:
return hashes_status
if args.json:
output = {
'good_trusted_sigs': [str(s) for s in good_trusted],
'good_untrusted_sigs': [str(s) for s in good_untrusted],
'unknown_sigs': [str(s) for s in unknown],
'bad_sigs': [str(s) for s in bad],
'verified_binaries': files_to_hashes,
"missing_binaries": missing_files,
}
print(json.dumps(output, indent=2))
else:
for filename in files_to_hashes:
print(f"VERIFIED: {filename}")
for filename in missing_files:
print(f"MISSING: {filename}")
return ReturnCode.SUCCESS
def main():
parser = argparse.ArgumentParser(description=__doc__)
parser.add_argument(
'-v', '--verbose', action='store_true',
default=bool_from_env('BINVERIFY_VERBOSE'),
)
parser.add_argument(
'-q', '--quiet', action='store_true',
default=bool_from_env('BINVERIFY_QUIET'),
)
parser.add_argument(
'--import-keys', action='store_true',
default=bool_from_env('BINVERIFY_IMPORTKEYS'),
help='if specified, ask to import each unknown builder key'
)
parser.add_argument(
'--min-good-sigs', type=int, action='store', nargs='?',
default=int(os.environ.get('BINVERIFY_MIN_GOOD_SIGS', 3)),
help=(
'The minimum number of good signatures to require successful termination.'),
)
parser.add_argument(
'--keyserver', action='store', nargs='?',
default=os.environ.get('BINVERIFY_KEYSERVER', 'hkps://keys.openpgp.org'),
help='which keyserver to use',
)
parser.add_argument(
'--trusted-keys', action='store', nargs='?',
default=os.environ.get('BINVERIFY_TRUSTED_KEYS', ''),
help='A list of trusted signer GPG keys, separated by commas. Not "trusted keys" in the GPG sense.',
)
parser.add_argument(
'--json', action='store_true',
default=bool_from_env('BINVERIFY_JSON'),
help='If set, output the result as JSON',
)
subparsers = parser.add_subparsers(title="Commands", required=True, dest="command")
pub_parser = subparsers.add_parser("pub", help="Verify a published release.")
pub_parser.set_defaults(func=verify_published_handler)
pub_parser.add_argument(
'version', type=str, help=(
f'version of the bitcoin release to download; of the format '
f'{VERSION_FORMAT}. Example: {VERSION_EXAMPLE}')
)
pub_parser.add_argument(
'--cleanup', action='store_true',
default=bool_from_env('BINVERIFY_CLEANUP'),
help='if specified, clean up files afterwards'
)
pub_parser.add_argument(
'--require-all-hosts', action='store_true',
default=bool_from_env('BINVERIFY_REQUIRE_ALL_HOSTS'),
help=(
f'If set, require all hosts ({HOST1}, {HOST2}) to provide signatures. '
'(Sometimes bitcoin.org lags behind bitcoincore.org.)')
)
bin_parser = subparsers.add_parser("bin", help="Verify local binaries.")
bin_parser.set_defaults(func=verify_binaries_handler)
bin_parser.add_argument("--sums-sig-file", "-s", help="Path to the SHA256SUMS.asc file to verify")
bin_parser.add_argument("sums_file", help="Path to the SHA256SUMS file to verify")
bin_parser.add_argument(
"binary", nargs="*",
help="Path to a binary distribution file to verify. Can be specified multiple times for multiple files to verify."
)
args = parser.parse_args()
if args.quiet:
log.setLevel(logging.WARNING)
return args.func(args)
if __name__ == '__main__':
sys.exit(main())
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