| Dir : /proc/self/root/opt/saltstack/salt/lib/python3.10/site-packages/ |
| Server: Linux ngx353.inmotionhosting.com 4.18.0-553.22.1.lve.1.el8.x86_64 #1 SMP Tue Oct 8 15:52:54 UTC 2024 x86_64 IP: 209.182.202.254 |
| Dir : //proc/self/root/opt/saltstack/salt/lib/python3.10/site-packages/gnupg.py |
""" A wrapper for the GnuPG `gpg` command.
Portions of this module are derived from A.M. Kuchling's well-designed
GPG.py, using Richard Jones' updated version 1.3, which can be found
in the pycrypto CVS repository on Sourceforge:
http://pycrypto.cvs.sourceforge.net/viewvc/pycrypto/gpg/GPG.py
This module is *not* forward-compatible with amk's; some of the
old interface has changed. For instance, since I've added decrypt
functionality, I elected to initialize with a 'gnupghome' argument
instead of 'keyring', so that gpg can find both the public and secret
keyrings. I've also altered some of the returned objects in order for
the caller to not have to know as much about the internals of the
result classes.
While the rest of ISconf is released under the GPL, I am releasing
this single file under the same terms that A.M. Kuchling used for
pycrypto.
Steve Traugott, stevegt@terraluna.org
Thu Jun 23 21:27:20 PDT 2005
This version of the module has been modified from Steve Traugott's version
(see http://trac.t7a.org/isconf/browser/trunk/lib/python/isconf/GPG.py) by
Vinay Sajip to make use of the subprocess module (Steve's version uses os.fork()
and so does not work on Windows). Renamed to gnupg.py to avoid confusion with
the previous versions.
Modifications Copyright (C) 2008-2023 Vinay Sajip. All rights reserved.
For the full documentation, see https://docs.red-dove.com/python-gnupg/ or
https://gnupg.readthedocs.io/
"""
import codecs
from io import StringIO
import logging
import os
import re
import socket
from subprocess import Popen, PIPE
import sys
import threading
__version__ = '0.5.2'
__author__ = 'Vinay Sajip'
__date__ = '$12-Dec-2023 07:52:07$'
STARTUPINFO = None
if os.name == 'nt': # pragma: no cover
try:
from subprocess import STARTUPINFO, STARTF_USESHOWWINDOW, SW_HIDE
except ImportError:
STARTUPINFO = None
try:
unicode
_py3k = False
string_types = basestring
text_type = unicode
path_types = (bytes, str)
except NameError:
_py3k = True
string_types = str
text_type = str
path_types = (str, )
logger = logging.getLogger(__name__)
if not logger.handlers:
logger.addHandler(logging.NullHandler())
# See gh-196: Logging could show sensitive data. It also produces some voluminous
# output. Hence, split into two tiers - stuff that's always logged, and stuff that's
# only logged if log_everything is True. (This is set by the test script.)
#
# For now, only debug logging of chunks falls into the optionally-logged category.
log_everything = False
# We use the test below because it works for Jython as well as CPython
if os.path.__name__ == 'ntpath': # pragma: no cover
# On Windows, we don't need shell quoting, other than worrying about
# paths with spaces in them.
def shell_quote(s):
return '"%s"' % s
else:
# Section copied from sarge
# This regex determines which shell input needs quoting
# because it may be unsafe
UNSAFE = re.compile(r'[^\w%+,./:=@-]')
def shell_quote(s):
"""
Quote text so that it is safe for POSIX command shells.
For example, "*.py" would be converted to "'*.py'". If the text is considered safe it is returned unquoted.
Args:
s (str): The value to quote
Returns:
str: A safe version of the input, from the point of view of POSIX
command shells.
"""
if not isinstance(s, string_types): # pragma: no cover
raise TypeError('Expected string type, got %s' % type(s))
if not s: # pragma: no cover
result = "''"
elif not UNSAFE.search(s): # pragma: no cover
result = s
else:
result = "'%s'" % s.replace("'", r"'\''")
return result
# end of sarge code
# Now that we use shell=False, we shouldn't need to quote arguments.
# Use no_quote instead of shell_quote to remind us of where quoting
# was needed. However, note that we still need, on 2.x, to encode any
# Unicode argument with the file system encoding - see Issue #41 and
# Python issue #1759845 ("subprocess.call fails with unicode strings in
# command line").
# Allows the encoding used to be overridden in special cases by setting
# this module attribute appropriately.
fsencoding = sys.getfilesystemencoding()
def no_quote(s):
"""
Legacy function which is a no-op on Python 3.
"""
if not _py3k and isinstance(s, text_type):
s = s.encode(fsencoding)
return s
def _copy_data(instream, outstream, buffer_size):
# Copy one stream to another
assert buffer_size > 0
sent = 0
if hasattr(sys.stdin, 'encoding'):
enc = sys.stdin.encoding
else: # pragma: no cover
enc = 'ascii'
while True:
# See issue #39: read can fail when e.g. a text stream is provided
# for what is actually a binary file
try:
data = instream.read(buffer_size)
except Exception: # pragma: no cover
logger.warning('Exception occurred while reading', exc_info=1)
break
if not data:
break
sent += len(data)
# logger.debug('sending chunk (%d): %r', sent, data[:256])
try:
outstream.write(data)
except UnicodeError: # pragma: no cover
outstream.write(data.encode(enc))
except Exception: # pragma: no cover
# Can sometimes get 'broken pipe' errors even when the data has all
# been sent
logger.exception('Error sending data')
break
try:
outstream.close()
except IOError: # pragma: no cover
logger.warning('Exception occurred while closing: ignored', exc_info=1)
logger.debug('closed output, %d bytes sent', sent)
def _threaded_copy_data(instream, outstream, buffer_size):
assert buffer_size > 0
wr = threading.Thread(target=_copy_data, args=(instream, outstream, buffer_size))
wr.daemon = True
logger.debug('data copier: %r, %r, %r', wr, instream, outstream)
wr.start()
return wr
def _write_passphrase(stream, passphrase, encoding):
passphrase = '%s\n' % passphrase
passphrase = passphrase.encode(encoding)
stream.write(passphrase)
logger.debug('Wrote passphrase')
def _is_sequence(instance):
return isinstance(instance, (list, tuple, set, frozenset))
def _make_memory_stream(s):
try:
from io import BytesIO
rv = BytesIO(s)
except ImportError: # pragma: no cover
rv = StringIO(s)
return rv
def _make_binary_stream(s, encoding):
if _py3k:
if isinstance(s, str):
s = s.encode(encoding)
else:
if type(s) is not str:
s = s.encode(encoding)
return _make_memory_stream(s)
class StatusHandler(object):
"""
The base class for handling status messages from `gpg`.
"""
def __init__(self, gpg):
"""
Initialize an instance.
Args:
gpg (GPG): The :class:`GPG` instance in use.
"""
self.gpg = gpg
def handle_status(self, key, value):
"""
Handle status messages from the `gpg` child process. These are lines of the format
[GNUPG:] <key> <value>
Args:
key (str): Identifies what the status message is.
value (str): Identifies additional data, which differs depending on the key.
"""
raise NotImplementedError
class Verify(StatusHandler):
"""
This class handles status messages during signature verificaton.
"""
TRUST_EXPIRED = 0
TRUST_UNDEFINED = 1
TRUST_NEVER = 2
TRUST_MARGINAL = 3
TRUST_FULLY = 4
TRUST_ULTIMATE = 5
TRUST_LEVELS = {
'TRUST_EXPIRED': TRUST_EXPIRED,
'TRUST_UNDEFINED': TRUST_UNDEFINED,
'TRUST_NEVER': TRUST_NEVER,
'TRUST_MARGINAL': TRUST_MARGINAL,
'TRUST_FULLY': TRUST_FULLY,
'TRUST_ULTIMATE': TRUST_ULTIMATE,
}
# for now, just the most common error codes. This can be expanded as and
# when reports come in of other errors.
GPG_SYSTEM_ERROR_CODES = {
1: 'permission denied',
35: 'file exists',
81: 'file not found',
97: 'not a directory',
}
GPG_ERROR_CODES = {
11: 'incorrect passphrase',
}
returncode = None
def __init__(self, gpg):
StatusHandler.__init__(self, gpg)
self.valid = False
self.fingerprint = self.creation_date = self.timestamp = None
self.signature_id = self.key_id = None
self.username = None
self.key_id = None
self.key_status = None
self.status = None
self.pubkey_fingerprint = None
self.expire_timestamp = None
self.sig_timestamp = None
self.trust_text = None
self.trust_level = None
self.sig_info = {}
self.problems = []
def __nonzero__(self): # pragma: no cover
return self.valid
__bool__ = __nonzero__
def handle_status(self, key, value):
def update_sig_info(**kwargs):
sig_id = self.signature_id
if sig_id:
info = self.sig_info[sig_id]
info.update(kwargs)
else:
logger.debug('Ignored due to missing sig iD: %s', kwargs)
if key in self.TRUST_LEVELS:
self.trust_text = key
self.trust_level = self.TRUST_LEVELS[key]
update_sig_info(trust_level=self.trust_level, trust_text=self.trust_text)
# See Issue #214. Once we see this, we're done with the signature just seen.
# Zap the signature ID, because we don't see a SIG_ID unless we have a new
# good signature.
self.signature_id = None
elif key in ('WARNING', 'ERROR'): # pragma: no cover
logger.warning('potential problem: %s: %s', key, value)
elif key == 'BADSIG': # pragma: no cover
self.valid = False
self.status = 'signature bad'
self.key_id, self.username = value.split(None, 1)
self.problems.append({'status': self.status, 'keyid': self.key_id, 'user': self.username})
update_sig_info(keyid=self.key_id, username=self.username, status=self.status)
elif key == 'ERRSIG': # pragma: no cover
self.valid = False
parts = value.split()
(self.key_id, algo, hash_algo, cls, self.timestamp) = parts[:5]
# Since GnuPG 2.2.7, a fingerprint is tacked on
if len(parts) >= 7:
self.fingerprint = parts[6]
self.status = 'signature error'
update_sig_info(keyid=self.key_id,
timestamp=self.timestamp,
fingerprint=self.fingerprint,
status=self.status)
self.problems.append({
'status': self.status,
'keyid': self.key_id,
'timestamp': self.timestamp,
'fingerprint': self.fingerprint
})
elif key == 'EXPSIG': # pragma: no cover
self.valid = False
self.status = 'signature expired'
self.key_id, self.username = value.split(None, 1)
update_sig_info(keyid=self.key_id, username=self.username, status=self.status)
self.problems.append({'status': self.status, 'keyid': self.key_id, 'user': self.username})
elif key == 'GOODSIG':
self.valid = True
self.status = 'signature good'
self.key_id, self.username = value.split(None, 1)
update_sig_info(keyid=self.key_id, username=self.username, status=self.status)
elif key == 'VALIDSIG':
parts = value.split()
fingerprint, creation_date, sig_ts, expire_ts = parts[:4]
(self.fingerprint, self.creation_date, self.sig_timestamp,
self.expire_timestamp) = (fingerprint, creation_date, sig_ts, expire_ts)
# may be different if signature is made with a subkey
if len(parts) >= 10:
self.pubkey_fingerprint = parts[9]
self.status = 'signature valid'
update_sig_info(fingerprint=fingerprint,
creation_date=creation_date,
timestamp=sig_ts,
expiry=expire_ts,
pubkey_fingerprint=self.pubkey_fingerprint,
status=self.status)
elif key == 'SIG_ID':
sig_id, creation_date, timestamp = value.split()
self.sig_info[sig_id] = {'creation_date': creation_date, 'timestamp': timestamp}
(self.signature_id, self.creation_date, self.timestamp) = (sig_id, creation_date, timestamp)
elif key == 'NO_PUBKEY': # pragma: no cover
self.valid = False
self.key_id = value
self.status = 'no public key'
self.problems.append({'status': self.status, 'keyid': self.key_id})
elif key == 'NO_SECKEY': # pragma: no cover
self.valid = False
self.key_id = value
self.status = 'no secret key'
self.problems.append({'status': self.status, 'keyid': self.key_id})
elif key in ('EXPKEYSIG', 'REVKEYSIG'): # pragma: no cover
# signed with expired or revoked key
self.valid = False
self.key_id = value.split()[0]
if key == 'EXPKEYSIG':
self.key_status = 'signing key has expired'
else:
self.key_status = 'signing key was revoked'
self.status = self.key_status
update_sig_info(status=self.status, keyid=self.key_id)
self.problems.append({'status': self.status, 'keyid': self.key_id})
elif key in ('UNEXPECTED', 'FAILURE'): # pragma: no cover
self.valid = False
if key == 'UNEXPECTED':
self.status = 'unexpected data'
else:
# N.B. there might be other reasons. For example, if an output
# file can't be created - /dev/null/foo will lead to a
# "not a directory" error, but which is not sent as a status
# message with the [GNUPG:] prefix. Similarly if you try to
# write to "/etc/foo" as a non-root user, a "permission denied"
# error will be sent as a non-status message.
message = 'error - %s' % value
operation, code = value.rsplit(' ', 1)
if code.isdigit():
code = int(code) & 0xFFFFFF # lose the error source
if self.gpg.error_map and code in self.gpg.error_map:
message = '%s: %s' % (operation, self.gpg.error_map[code])
else:
system_error = bool(code & 0x8000)
code = code & 0x7FFF
if system_error:
mapping = self.GPG_SYSTEM_ERROR_CODES
else:
mapping = self.GPG_ERROR_CODES
if code in mapping:
message = '%s: %s' % (operation, mapping[code])
if not self.status:
self.status = message
elif key == 'NODATA': # pragma: no cover
# See issue GH-191
self.valid = False
self.status = 'signature expected but not found'
elif key in ('DECRYPTION_INFO', 'PLAINTEXT', 'PLAINTEXT_LENGTH', 'BEGIN_SIGNING', 'KEY_CONSIDERED'):
pass
elif key in ('NEWSIG', ):
# Only sent in gpg2. Clear any signature ID, to be set by a following SIG_ID
self.signature_id = None
else: # pragma: no cover
logger.debug('message ignored: %r, %r', key, value)
class ImportResult(StatusHandler):
"""
This class handles status messages during key import.
"""
counts = '''count no_user_id imported imported_rsa unchanged n_uids n_subk n_sigs n_revoc sec_read sec_imported
sec_dups not_imported'''.split()
returncode = None
def __init__(self, gpg):
StatusHandler.__init__(self, gpg)
self.results = []
self.fingerprints = []
for result in self.counts:
setattr(self, result, 0)
def __nonzero__(self):
return bool(not self.not_imported and self.fingerprints)
__bool__ = __nonzero__
ok_reason = {
'0': 'Not actually changed',
'1': 'Entirely new key',
'2': 'New user IDs',
'4': 'New signatures',
'8': 'New subkeys',
'16': 'Contains private key',
}
problem_reason = {
'0': 'No specific reason given',
'1': 'Invalid Certificate',
'2': 'Issuer Certificate missing',
'3': 'Certificate Chain too long',
'4': 'Error storing certificate',
}
def handle_status(self, key, value):
if key in ('WARNING', 'ERROR'): # pragma: no cover
logger.warning('potential problem: %s: %s', key, value)
elif key in ('IMPORTED', 'KEY_CONSIDERED'):
# this duplicates info we already see in import_ok & import_problem
pass
elif key == 'NODATA': # pragma: no cover
self.results.append({'fingerprint': None, 'problem': '0', 'text': 'No valid data found'})
elif key == 'IMPORT_OK':
reason, fingerprint = value.split()
reasons = []
for code, text in list(self.ok_reason.items()):
if int(reason) | int(code) == int(reason):
reasons.append(text)
reasontext = '\n'.join(reasons) + '\n'
self.results.append({'fingerprint': fingerprint, 'ok': reason, 'text': reasontext})
self.fingerprints.append(fingerprint)
elif key == 'IMPORT_PROBLEM': # pragma: no cover
try:
reason, fingerprint = value.split()
except Exception:
reason = value
fingerprint = '<unknown>'
self.results.append({'fingerprint': fingerprint, 'problem': reason, 'text': self.problem_reason[reason]})
elif key == 'IMPORT_RES':
import_res = value.split()
for i, count in enumerate(self.counts):
setattr(self, count, int(import_res[i]))
elif key == 'KEYEXPIRED': # pragma: no cover
self.results.append({'fingerprint': None, 'problem': '0', 'text': 'Key expired'})
elif key == 'SIGEXPIRED': # pragma: no cover
self.results.append({'fingerprint': None, 'problem': '0', 'text': 'Signature expired'})
elif key == 'FAILURE': # pragma: no cover
self.results.append({'fingerprint': None, 'problem': '0', 'text': 'Other failure'})
else: # pragma: no cover
logger.debug('message ignored: %s, %s', key, value)
def summary(self):
"""
Return a summary indicating how many keys were imported and how many were not imported.
"""
result = []
result.append('%d imported' % self.imported)
if self.not_imported: # pragma: no cover
result.append('%d not imported' % self.not_imported)
return ', '.join(result)
ESCAPE_PATTERN = re.compile(r'\\x([0-9a-f][0-9a-f])', re.I)
BASIC_ESCAPES = {
r'\n': '\n',
r'\r': '\r',
r'\f': '\f',
r'\v': '\v',
r'\b': '\b',
r'\0': '\0',
}
class SendResult(StatusHandler):
"""
This class handles status messages during key sending.
"""
returncode = None
def handle_status(self, key, value):
logger.debug('SendResult: %s: %s', key, value)
def _set_fields(target, fieldnames, args):
for i, var in enumerate(fieldnames):
if i < len(args):
target[var] = args[i]
else:
target[var] = 'unavailable'
class SearchKeys(StatusHandler, list):
"""
This class handles status messages during key search.
"""
# Handle pub and uid (relating the latter to the former).
# Don't care about the rest
UID_INDEX = 1
FIELDS = 'type keyid algo length date expires'.split()
returncode = None
def __init__(self, gpg):
StatusHandler.__init__(self, gpg)
self.curkey = None
self.fingerprints = []
self.uids = []
def get_fields(self, args):
"""
Internal method used to update the instance from a `gpg` status message.
"""
result = {}
_set_fields(result, self.FIELDS, args)
result['uids'] = []
result['sigs'] = []
return result
def pub(self, args):
"""
Internal method used to update the instance from a `gpg` status message.
"""
self.curkey = curkey = self.get_fields(args)
self.append(curkey)
def uid(self, args):
"""
Internal method used to update the instance from a `gpg` status message.
"""
uid = args[self.UID_INDEX]
uid = ESCAPE_PATTERN.sub(lambda m: chr(int(m.group(1), 16)), uid)
for k, v in BASIC_ESCAPES.items():
uid = uid.replace(k, v)
self.curkey['uids'].append(uid)
self.uids.append(uid)
def handle_status(self, key, value): # pragma: no cover
pass
class ListKeys(SearchKeys):
"""
This class handles status messages during listing keys and signatures.
Handle pub and uid (relating the latter to the former).
We don't care about (info from GnuPG DETAILS file):
crt = X.509 certificate
crs = X.509 certificate and private key available
uat = user attribute (same as user id except for field 10).
sig = signature
rev = revocation signature
pkd = public key data (special field format, see below)
grp = reserved for gpgsm
rvk = revocation key
"""
UID_INDEX = 9
FIELDS = ('type trust length algo keyid date expires dummy ownertrust uid sig'
' cap issuer flag token hash curve compliance updated origin keygrip').split()
def __init__(self, gpg):
super(ListKeys, self).__init__(gpg)
self.in_subkey = False
self.key_map = {}
def key(self, args):
"""
Internal method used to update the instance from a `gpg` status message.
"""
self.curkey = curkey = self.get_fields(args)
if curkey['uid']: # pragma: no cover
curkey['uids'].append(curkey['uid'])
del curkey['uid']
curkey['subkeys'] = []
self.append(curkey)
self.in_subkey = False
pub = sec = key
def fpr(self, args):
"""
Internal method used to update the instance from a `gpg` status message.
"""
fp = args[9]
if fp in self.key_map and self.gpg.check_fingerprint_collisions: # pragma: no cover
raise ValueError('Unexpected fingerprint collision: %s' % fp)
if not self.in_subkey:
self.curkey['fingerprint'] = fp
self.fingerprints.append(fp)
self.key_map[fp] = self.curkey
else:
self.curkey['subkeys'][-1][2] = fp
self.key_map[fp] = self.curkey
def grp(self, args):
"""
Internal method used to update the instance from a `gpg` status message.
"""
grp = args[9]
if not self.in_subkey:
self.curkey['keygrip'] = grp
else:
self.curkey['subkeys'][-1][3] = grp
def _collect_subkey_info(self, curkey, args):
info_map = curkey.setdefault('subkey_info', {})
info = {}
_set_fields(info, self.FIELDS, args)
info_map[args[4]] = info
def sub(self, args):
"""
Internal method used to update the instance from a `gpg` status message.
"""
# See issue #81. We create a dict with more information about
# subkeys, but for backward compatibility reason, have to add it in
# as a separate entry 'subkey_info'
subkey = [args[4], args[11], None, None] # keyid, type, fp, grp
self.curkey['subkeys'].append(subkey)
self._collect_subkey_info(self.curkey, args)
self.in_subkey = True
def ssb(self, args):
"""
Internal method used to update the instance from a `gpg` status message.
"""
subkey = [args[4], None, None, None] # keyid, type, fp, grp
self.curkey['subkeys'].append(subkey)
self._collect_subkey_info(self.curkey, args)
self.in_subkey = True
def sig(self, args):
"""
Internal method used to update the instance from a `gpg` status message.
"""
# keyid, uid, sigclass
self.curkey['sigs'].append((args[4], args[9], args[10]))
class ScanKeys(ListKeys):
"""
This class handles status messages during scanning keys.
"""
def sub(self, args):
"""
Internal method used to update the instance from a `gpg` status message.
"""
# --with-fingerprint --with-colons somehow outputs fewer colons,
# use the last value args[-1] instead of args[11]
subkey = [args[4], args[-1], None, None]
self.curkey['subkeys'].append(subkey)
self._collect_subkey_info(self.curkey, args)
self.in_subkey = True
class TextHandler(object):
def _as_text(self):
return self.data.decode(self.gpg.encoding, self.gpg.decode_errors)
if _py3k:
__str__ = _as_text
else:
__unicode__ = _as_text
def __str__(self):
return self.data
_INVALID_KEY_REASONS = {
0: 'no specific reason given',
1: 'not found',
2: 'ambiguous specification',
3: 'wrong key usage',
4: 'key revoked',
5: 'key expired',
6: 'no crl known',
7: 'crl too old',
8: 'policy mismatch',
9: 'not a secret key',
10: 'key not trusted',
11: 'missing certificate',
12: 'missing issuer certificate',
13: 'key disabled',
14: 'syntax error in specification',
}
def _determine_invalid_recipient_or_signer(s): # pragma: no cover
parts = s.split()
if len(parts) >= 2:
code, ident = parts[:2]
else:
code = parts[0]
ident = '<no ident>'
unexpected = 'unexpected return code %r' % code
try:
key = int(code)
result = _INVALID_KEY_REASONS.get(key, unexpected)
except ValueError:
result = unexpected
return '%s:%s' % (result, ident)
class Crypt(Verify, TextHandler):
"""
This class handles status messages during encryption and decryption.
"""
def __init__(self, gpg):
Verify.__init__(self, gpg)
self.data = ''
self.ok = False
self.status = ''
self.status_detail = ''
self.key_id = None
def __nonzero__(self):
return bool(self.ok)
__bool__ = __nonzero__
def handle_status(self, key, value):
if key in ('WARNING', 'ERROR'):
logger.warning('potential problem: %s: %s', key, value)
elif key == 'NODATA':
if self.status not in ('decryption failed', ):
self.status = 'no data was provided'
elif key in ('NEED_PASSPHRASE', 'BAD_PASSPHRASE', 'GOOD_PASSPHRASE', 'MISSING_PASSPHRASE', 'KEY_NOT_CREATED',
'NEED_PASSPHRASE_PIN'): # pragma: no cover
self.status = key.replace('_', ' ').lower()
elif key == 'DECRYPTION_FAILED': # pragma: no cover
if self.status != 'no secret key': # don't overwrite more useful message
self.status = 'decryption failed'
elif key == 'NEED_PASSPHRASE_SYM':
self.status = 'need symmetric passphrase'
elif key == 'BEGIN_DECRYPTION':
if self.status != 'no secret key': # don't overwrite more useful message
self.status = 'decryption incomplete'
elif key == 'BEGIN_ENCRYPTION':
self.status = 'encryption incomplete'
elif key == 'DECRYPTION_OKAY':
self.status = 'decryption ok'
self.ok = True
elif key == 'END_ENCRYPTION':
self.status = 'encryption ok'
self.ok = True
elif key == 'INV_RECP': # pragma: no cover
if not self.status:
self.status = 'invalid recipient'
else:
self.status = 'invalid recipient: %s' % self.status
self.status_detail = _determine_invalid_recipient_or_signer(value)
elif key == 'KEYEXPIRED': # pragma: no cover
self.status = 'key expired'
elif key == 'SIG_CREATED': # pragma: no cover
self.status = 'sig created'
elif key == 'SIGEXPIRED': # pragma: no cover
self.status = 'sig expired'
elif key == 'ENC_TO': # pragma: no cover
# ENC_TO <long_keyid> <keytype> <keylength>
self.key_id = value.split(' ', 1)[0]
elif key in ('USERID_HINT', 'GOODMDC', 'END_DECRYPTION', 'CARDCTRL', 'BADMDC', 'SC_OP_FAILURE',
'SC_OP_SUCCESS', 'PINENTRY_LAUNCHED'):
pass
else:
Verify.handle_status(self, key, value)
class GenKey(StatusHandler):
"""
This class handles status messages during key generation.
"""
returncode = None
def __init__(self, gpg):
StatusHandler.__init__(self, gpg)
self.type = None
self.fingerprint = ''
self.status = None
def __nonzero__(self): # pragma: no cover
return bool(self.fingerprint)
__bool__ = __nonzero__
def __str__(self): # pragma: no cover
return self.fingerprint
def handle_status(self, key, value):
if key in ('WARNING', 'ERROR'): # pragma: no cover
logger.warning('potential problem: %s: %s', key, value)
elif key == 'KEY_CREATED':
parts = value.split()
(self.type, self.fingerprint) = parts[:2]
self.status = 'ok'
elif key == 'KEY_NOT_CREATED':
self.status = key.replace('_', ' ').lower()
elif key in ('PROGRESS', 'GOOD_PASSPHRASE'): # pragma: no cover
pass
else: # pragma: no cover
logger.debug('message ignored: %s, %s', key, value)
class AddSubkey(StatusHandler):
"""
This class handles status messages during subkey addition.
"""
returncode = None
def __init__(self, gpg):
StatusHandler.__init__(self, gpg)
self.type = None
self.fingerprint = ''
self.status = None
def __nonzero__(self): # pragma: no cover
return bool(self.fingerprint)
__bool__ = __nonzero__
def __str__(self):
return self.fingerprint
def handle_status(self, key, value):
if key in ('WARNING', 'ERROR'): # pragma: no cover
logger.warning('potential problem: %s: %s', key, value)
elif key == 'KEY_CREATED':
(self.type, self.fingerprint) = value.split()
self.status = 'ok'
else: # pragma: no cover
logger.debug('message ignored: %s, %s', key, value)
class ExportResult(GenKey):
"""
This class handles status messages during key export.
"""
# For now, just use an existing class to base it on - if needed, we
# can override handle_status for more specific message handling.
def handle_status(self, key, value):
if key in ('EXPORTED', 'EXPORT_RES'):
pass
else:
super(ExportResult, self).handle_status(key, value)
class DeleteResult(StatusHandler):
"""
This class handles status messages during key deletion.
"""
returncode = None
def __init__(self, gpg):
StatusHandler.__init__(self, gpg)
self.status = 'ok'
def __str__(self):
return self.status
problem_reason = {
'1': 'No such key',
'2': 'Must delete secret key first',
'3': 'Ambiguous specification',
}
def handle_status(self, key, value):
if key == 'DELETE_PROBLEM': # pragma: no cover
self.status = self.problem_reason.get(value, 'Unknown error: %r' % value)
else: # pragma: no cover
logger.debug('message ignored: %s, %s', key, value)
def __nonzero__(self): # pragma: no cover
return self.status == 'ok'
__bool__ = __nonzero__
class TrustResult(DeleteResult):
"""
This class handles status messages during key trust setting.
"""
pass
class Sign(StatusHandler, TextHandler):
"""
This class handles status messages during signing.
"""
returncode = None
def __init__(self, gpg):
StatusHandler.__init__(self, gpg)
self.type = None
self.hash_algo = None
self.fingerprint = None
self.status = None
self.status_detail = None
self.key_id = None
self.username = None
def __nonzero__(self):
return self.fingerprint is not None
__bool__ = __nonzero__
def handle_status(self, key, value):
if key in ('WARNING', 'ERROR', 'FAILURE'): # pragma: no cover
logger.warning('potential problem: %s: %s', key, value)
elif key in ('KEYEXPIRED', 'SIGEXPIRED'): # pragma: no cover
self.status = 'key expired'
elif key == 'KEYREVOKED': # pragma: no cover
self.status = 'key revoked'
elif key == 'SIG_CREATED':
(self.type, algo, self.hash_algo, cls, self.timestamp, self.fingerprint) = value.split()
self.status = 'signature created'
elif key == 'USERID_HINT': # pragma: no cover
self.key_id, self.username = value.split(' ', 1)
elif key == 'BAD_PASSPHRASE': # pragma: no cover
self.status = 'bad passphrase'
elif key in ('INV_SGNR', 'INV_RECP'): # pragma: no cover
# INV_RECP is returned in older versions
if not self.status:
self.status = 'invalid signer'
else:
self.status = 'invalid signer: %s' % self.status
self.status_detail = _determine_invalid_recipient_or_signer(value)
elif key in ('NEED_PASSPHRASE', 'GOOD_PASSPHRASE', 'BEGIN_SIGNING'):
pass
else: # pragma: no cover
logger.debug('message ignored: %s, %s', key, value)
VERSION_RE = re.compile(r'^cfg:version:(\d+(\.\d+)*)'.encode('ascii'))
HEX_DIGITS_RE = re.compile(r'[0-9a-f]+$', re.I)
PUBLIC_KEY_RE = re.compile(r'gpg: public key is (\w+)')
class GPG(object):
"""
This class provides a high-level programmatic interface for `gpg`.
"""
error_map = None
decode_errors = 'strict'
buffer_size = 16384 # override in instance if needed
result_map = {
'crypt': Crypt,
'delete': DeleteResult,
'generate': GenKey,
'addSubkey': AddSubkey,
'import': ImportResult,
'send': SendResult,
'list': ListKeys,
'scan': ScanKeys,
'search': SearchKeys,
'sign': Sign,
'trust': TrustResult,
'verify': Verify,
'export': ExportResult,
}
"A map of GPG operations to result object types."
def __init__(self,
gpgbinary='gpg',
gnupghome=None,
verbose=False,
use_agent=False,
keyring=None,
options=None,
secret_keyring=None,
env=None):
"""Initialize a GPG process wrapper.
Args:
gpgbinary (str): A pathname for the GPG binary to use.
gnupghome (str): A pathname to where we can find the public and private keyrings. The default is
whatever `gpg` defaults to.
keyring (str|list): The name of alternative keyring file to use, or a list of such keyring files. If
specified, the default keyring is not used.
options (list): A list of additional options to pass to the GPG binary.
secret_keyring (str|list): The name of an alternative secret keyring file to use, or a list of such
keyring files.
env (dict): A dict of environment variables to be used for the GPG subprocess.
"""
self.gpgbinary = gpgbinary
self.gnupghome = gnupghome
self.env = env
# issue 112: fail if the specified value isn't a directory
if gnupghome and not os.path.isdir(gnupghome):
raise ValueError('gnupghome should be a directory (it isn\'t): %s' % gnupghome)
if keyring:
# Allow passing a string or another iterable. Make it uniformly
# a list of keyring filenames
if isinstance(keyring, string_types):
keyring = [keyring]
self.keyring = keyring
if secret_keyring: # pragma: no cover
# Allow passing a string or another iterable. Make it uniformly
# a list of keyring filenames
if isinstance(secret_keyring, string_types):
secret_keyring = [secret_keyring]
self.secret_keyring = secret_keyring
self.verbose = verbose
self.use_agent = use_agent
if isinstance(options, str): # pragma: no cover
options = [options]
self.options = options
self.on_data = None # or a callable - will be called with data chunks
# Changed in 0.3.7 to use Latin-1 encoding rather than
# locale.getpreferredencoding falling back to sys.stdin.encoding
# falling back to utf-8, because gpg itself uses latin-1 as the default
# encoding.
self.encoding = 'latin-1'
if gnupghome and not os.path.isdir(self.gnupghome): # pragma: no cover
os.makedirs(self.gnupghome, 0o700)
try:
p = self._open_subprocess(['--list-config', '--with-colons'])
except OSError:
msg = 'Unable to run gpg (%s) - it may not be available.' % self.gpgbinary
logger.exception(msg)
raise OSError(msg)
result = self.result_map['verify'](self) # any result will do for this
self._collect_output(p, result, stdin=p.stdin)
if p.returncode != 0: # pragma: no cover
raise ValueError('Error invoking gpg: %s: %s' % (p.returncode, result.stderr))
m = VERSION_RE.match(result.data)
if not m: # pragma: no cover
self.version = None
else:
dot = '.'.encode('ascii')
self.version = tuple([int(s) for s in m.groups()[0].split(dot)])
# See issue #97. It seems gpg allow duplicate keys in keyrings, so we
# can't be too strict.
self.check_fingerprint_collisions = False
def make_args(self, args, passphrase):
"""
Make a list of command line elements for GPG. The value of ``args``
will be appended. The ``passphrase`` argument needs to be True if
a passphrase will be sent to `gpg`, else False.
Args:
args (list[str]): A list of arguments.
passphrase (str): The passphrase to use.
"""
cmd = [self.gpgbinary, '--status-fd', '2', '--no-tty', '--no-verbose']
if 'DEBUG_IPC' in os.environ: # pragma: no cover
cmd.extend(['--debug', 'ipc'])
if passphrase and hasattr(self, 'version'):
if self.version >= (2, 1):
cmd[1:1] = ['--pinentry-mode', 'loopback']
cmd.extend(['--fixed-list-mode', '--batch', '--with-colons'])
if self.gnupghome:
cmd.extend(['--homedir', no_quote(self.gnupghome)])
if self.keyring:
cmd.append('--no-default-keyring')
for fn in self.keyring:
cmd.extend(['--keyring', no_quote(fn)])
if self.secret_keyring: # pragma: no cover
for fn in self.secret_keyring:
cmd.extend(['--secret-keyring', no_quote(fn)])
if passphrase:
cmd.extend(['--passphrase-fd', '0'])
if self.use_agent: # pragma: no cover
cmd.append('--use-agent')
if self.options:
cmd.extend(self.options)
cmd.extend(args)
return cmd
def _open_subprocess(self, args, passphrase=False):
# Internal method: open a pipe to a GPG subprocess and return
# the file objects for communicating with it.
from subprocess import list2cmdline as debug_print
cmd = self.make_args(args, passphrase)
if self.verbose: # pragma: no cover
print(debug_print(cmd))
if not STARTUPINFO:
si = None
else: # pragma: no cover
si = STARTUPINFO()
si.dwFlags = STARTF_USESHOWWINDOW
si.wShowWindow = SW_HIDE
result = Popen(cmd, shell=False, stdin=PIPE, stdout=PIPE, stderr=PIPE, startupinfo=si, env=self.env)
logger.debug('%s: %s', result.pid, debug_print(cmd))
return result
def _read_response(self, stream, result):
# Internal method: reads all the stderr output from GPG, taking notice
# only of lines that begin with the magic [GNUPG:] prefix.
#
# Calls methods on the response object for each valid token found,
# with the arg being the remainder of the status line.
lines = []
while True:
line = stream.readline()
if len(line) == 0:
break
lines.append(line)
line = line.rstrip()
if self.verbose: # pragma: no cover
print(line)
logger.debug('%s', line)
if line[0:9] == '[GNUPG:] ':
# Chop off the prefix
line = line[9:]
L = line.split(None, 1)
keyword = L[0]
if len(L) > 1:
value = L[1]
else:
value = ''
result.handle_status(keyword, value)
result.stderr = ''.join(lines)
def _read_data(self, stream, result, on_data=None, buffer_size=1024):
# Read the contents of the file from GPG's stdout
assert buffer_size > 0
chunks = []
while True:
data = stream.read(buffer_size)
if len(data) == 0:
if on_data:
on_data(data)
break
if log_everything:
logger.debug('chunk: %r' % data[:256])
append = True
if on_data:
append = on_data(data) is not False
if append:
chunks.append(data)
if _py3k:
# Join using b'' or '', as appropriate
result.data = type(data)().join(chunks)
else:
result.data = ''.join(chunks)
def _collect_output(self, process, result, writer=None, stdin=None):
"""
Drain the subprocesses output streams, writing the collected output to the result. If a writer thread (writing
to the subprocess) is given, make sure it's joined before returning. If a stdin stream is given, close it
before returning.
"""
stderr = codecs.getreader(self.encoding)(process.stderr)
rr = threading.Thread(target=self._read_response, args=(stderr, result))
rr.daemon = True
logger.debug('stderr reader: %r', rr)
rr.start()
stdout = process.stdout
dr = threading.Thread(target=self._read_data, args=(stdout, result, self.on_data, self.buffer_size))
dr.daemon = True
logger.debug('stdout reader: %r', dr)
dr.start()
dr.join()
rr.join()
if writer is not None:
writer.join(0.01)
process.wait()
result.returncode = rc = process.returncode
if rc != 0:
logger.warning('gpg returned a non-zero error code: %d', rc)
if stdin is not None:
try:
stdin.close()
except IOError: # pragma: no cover
pass
stderr.close()
stdout.close()
return rc
def is_valid_file(self, fileobj):
"""
A simplistic check for a file-like object.
Args:
fileobj (object): The object to test.
Returns:
bool: ``True`` if it's a file-like object, else ``False``.
"""
return hasattr(fileobj, 'read')
def _get_fileobj(self, fileobj_or_path):
if self.is_valid_file(fileobj_or_path):
result = fileobj_or_path
elif not isinstance(fileobj_or_path, path_types):
raise TypeError('Not a valid file or path: %s' % fileobj_or_path)
elif not os.path.exists(fileobj_or_path):
raise ValueError('No such file: %s' % fileobj_or_path)
else:
result = open(fileobj_or_path, 'rb')
return result
def _handle_io(self, args, fileobj_or_path, result, passphrase=None, binary=False):
"Handle a call to GPG - pass input data, collect output data"
# Handle a basic data call - pass data to GPG, handle the output
# including status information. Garbage In, Garbage Out :)
fileobj = self._get_fileobj(fileobj_or_path)
try:
p = self._open_subprocess(args, passphrase is not None)
if not binary: # pragma: no cover
stdin = codecs.getwriter(self.encoding)(p.stdin)
else:
stdin = p.stdin
if passphrase:
_write_passphrase(stdin, passphrase, self.encoding)
writer = _threaded_copy_data(fileobj, stdin, self.buffer_size)
self._collect_output(p, result, writer, stdin)
return result
finally:
writer.join(0.01)
if fileobj is not fileobj_or_path:
fileobj.close()
#
# SIGNATURE METHODS
#
def sign(self, message, **kwargs):
"""
Sign a message. This method delegates most of the work to the `sign_file()` method.
Args:
message (str|bytes): The data to sign.
kwargs (dict): Keyword arguments, which are passed to `sign_file()`:
* keyid (str): The key id of the signer.
* passphrase (str): The passphrase for the key.
* clearsign (bool): Whether to use clear signing.
* detach (bool): Whether to produce a detached signature.
* binary (bool): Whether to produce a binary signature.
* output (str): The path to write a detached signature to.
* extra_args (list[str]): Additional arguments to pass to `gpg`.
"""
f = _make_binary_stream(message, self.encoding)
result = self.sign_file(f, **kwargs)
f.close()
return result
def set_output_without_confirmation(self, args, output):
"""
If writing to a file which exists, avoid a confirmation message by
updating the *args* value in place to set the output path and avoid
any cpmfirmation prompt.
Args:
args (list[str]): A list of arguments.
output (str): The path to the outpur file.
"""
if os.path.exists(output):
# We need to avoid an overwrite confirmation message
args.extend(['--yes'])
args.extend(['--output', no_quote(output)])
def is_valid_passphrase(self, passphrase):
"""
Confirm that the passphrase doesn't contain newline-type characters - it is passed in a pipe to `gpg`,
and so not checking could lead to spoofing attacks by passing arbitrary text after passphrase and newline.
Args:
passphrase (str): The passphrase to test.
Returns:
bool: ``True`` if it's a valid passphrase, else ``False``.
"""
return ('\n' not in passphrase and '\r' not in passphrase and '\x00' not in passphrase)
def sign_file(self,
fileobj_or_path,
keyid=None,
passphrase=None,
clearsign=True,
detach=False,
binary=False,
output=None,
extra_args=None):
"""
Sign data in a file or file-like object.
Args:
fileobj_or_path (str|file): The file or file-like object to sign.
keyid (str): The key id of the signer.
passphrase (str): The passphrase for the key.
clearsign (bool): Whether to use clear signing.
detach (bool): Whether to produce a detached signature.
binary (bool): Whether to produce a binary signature.
output (str): The path to write a detached signature to.
extra_args (list[str]): Additional arguments to pass to `gpg`.
"""
if passphrase and not self.is_valid_passphrase(passphrase):
raise ValueError('Invalid passphrase')
logger.debug('sign_file: %s', fileobj_or_path)
if binary: # pragma: no cover
args = ['-s']
else:
args = ['-sa']
# You can't specify detach-sign and clearsign together: gpg ignores
# the detach-sign in that case.
if detach:
args.append('--detach-sign')
elif clearsign:
args.append('--clearsign')
if keyid:
args.extend(['--default-key', no_quote(keyid)])
if output: # pragma: no cover
# write the output to a file with the specified name
self.set_output_without_confirmation(args, output)
if extra_args: # pragma: no cover
args.extend(extra_args)
result = self.result_map['sign'](self)
# We could use _handle_io here except for the fact that if the
# passphrase is bad, gpg bails and you can't write the message.
fileobj = self._get_fileobj(fileobj_or_path)
p = self._open_subprocess(args, passphrase is not None)
try:
stdin = p.stdin
if passphrase:
_write_passphrase(stdin, passphrase, self.encoding)
writer = _threaded_copy_data(fileobj, stdin, self.buffer_size)
except IOError: # pragma: no cover
logging.exception('error writing message')
writer = None
finally:
if writer:
writer.join(0.01)
if fileobj is not fileobj_or_path:
fileobj.close()
self._collect_output(p, result, writer, stdin)
return result
def verify(self, data, **kwargs):
"""
Verify the signature on the contents of the string *data*. This method delegates most of the work to
`verify_file()`.
Args:
data (str|bytes): The data to verify.
kwargs (dict): Keyword arguments, which are passed to `verify_file()`:
* fileobj_or_path (str|file): A path to a signature, or a file-like object containing one.
* data_filename (str): If the signature is a detached one, the path to the data that was signed.
* close_file (bool): If a file-like object is passed in, whether to close it.
* extra_args (list[str]): Additional arguments to pass to `gpg`.
"""
f = _make_binary_stream(data, self.encoding)
result = self.verify_file(f, **kwargs)
f.close()
return result
def verify_file(self, fileobj_or_path, data_filename=None, close_file=True, extra_args=None):
"""
Verify a signature.
Args:
fileobj_or_path (str|file): A path to a signature, or a file-like object containing one.
data_filename (str): If the signature is a detached one, the path to the data that was signed.
close_file (bool): If a file-like object is passed in, whether to close it.
extra_args (list[str]): Additional arguments to pass to `gpg`.
"""
logger.debug('verify_file: %r, %r', fileobj_or_path, data_filename)
result = self.result_map['verify'](self)
args = ['--verify']
if extra_args: # pragma: no cover
args.extend(extra_args)
if data_filename is None:
self._handle_io(args, fileobj_or_path, result, binary=True)
else:
logger.debug('Handling detached verification')
import tempfile
fd, fn = tempfile.mkstemp(prefix='pygpg-')
s = fileobj_or_path.read()
if close_file:
fileobj_or_path.close()
logger.debug('Wrote to temp file: %r', s)
os.write(fd, s)
os.close(fd)
args.append(no_quote(fn))
args.append(no_quote(data_filename))
try:
p = self._open_subprocess(args)
self._collect_output(p, result, stdin=p.stdin)
finally:
os.remove(fn)
return result
def verify_data(self, sig_filename, data, extra_args=None):
"""
Verify the signature in sig_filename against data in memory
Args:
sig_filename (str): The path to a signature.
data (str|bytes): The data to be verified.
extra_args (list[str]): Additional arguments to pass to `gpg`.
"""
logger.debug('verify_data: %r, %r ...', sig_filename, data[:16])
result = self.result_map['verify'](self)
args = ['--verify']
if extra_args: # pragma: no cover
args.extend(extra_args)
args.extend([no_quote(sig_filename), '-'])
stream = _make_memory_stream(data)
self._handle_io(args, stream, result, binary=True)
return result
#
# KEY MANAGEMENT
#
def import_keys(self, key_data, extra_args=None, passphrase=None):
"""
Import the key_data into our keyring.
Args:
key_data (str|bytes): The key data to import.
passphrase (str): The passphrase to use.
extra_args (list[str]): Additional arguments to pass to `gpg`.
"""
result = self.result_map['import'](self)
logger.debug('import_keys: %r', key_data[:256])
data = _make_binary_stream(key_data, self.encoding)
args = ['--import']
if extra_args: # pragma: no cover
args.extend(extra_args)
self._handle_io(args, data, result, passphrase=passphrase, binary=True)
logger.debug('import_keys result: %r', result.__dict__)
data.close()
return result
def import_keys_file(self, key_path, **kwargs):
"""
Import the key data in key_path into our keyring.
Args:
key_path (str): A path to the key data to be imported.
"""
with open(key_path, 'rb') as f:
return self.import_keys(f.read(), **kwargs)
def recv_keys(self, keyserver, *keyids, **kwargs):
"""
Import one or more keys from a keyserver.
Args:
keyserver (str): The key server hostname.
keyids (str): A list of key ids to receive.
"""
result = self.result_map['import'](self)
logger.debug('recv_keys: %r', keyids)
data = _make_binary_stream('', self.encoding)
args = ['--keyserver', no_quote(keyserver)]
if 'extra_args' in kwargs: # pragma: no cover
args.extend(kwargs['extra_args'])
args.append('--recv-keys')
args.extend([no_quote(k) for k in keyids])
self._handle_io(args, data, result, binary=True)
logger.debug('recv_keys result: %r', result.__dict__)
data.close()
return result
# This function isn't exercised by tests, to avoid polluting external
# key servers with test keys
def send_keys(self, keyserver, *keyids, **kwargs): # pragma: no cover
"""
Send one or more keys to a keyserver.
Args:
keyserver (str): The key server hostname.
keyids (list[str]): A list of key ids to send.
"""
# Note: it's not practical to test this function without sending
# arbitrary data to live keyservers.
result = self.result_map['send'](self)
logger.debug('send_keys: %r', keyids)
data = _make_binary_stream('', self.encoding)
args = ['--keyserver', no_quote(keyserver)]
if 'extra_args' in kwargs:
args.extend(kwargs['extra_args'])
args.append('--send-keys')
args.extend([no_quote(k) for k in keyids])
self._handle_io(args, data, result, binary=True)
logger.debug('send_keys result: %r', result.__dict__)
data.close()
return result
def delete_keys(self, fingerprints, secret=False, passphrase=None, expect_passphrase=True, exclamation_mode=False):
"""
Delete the indicated keys.
Args:
fingerprints (str|list[str]): The keys to delete.
secret (bool): Whether to delete secret keys.
passphrase (str): The passphrase to use.
expect_passphrase (bool): Whether a passphrase is expected.
exclamation_mode (bool): If specified, a `'!'` is appended to each fingerprint. This deletes only a subkey
or an entire key, depending on what the fingerprint refers to.
.. note:: Passphrases
Since GnuPG 2.1, you can't delete secret keys without providing a passphrase. However, if you're expecting
the passphrase to go to `gpg` via pinentry, you should specify expect_passphrase=False. (It's only checked
for GnuPG >= 2.1).
"""
if passphrase and not self.is_valid_passphrase(passphrase): # pragma: no cover
raise ValueError('Invalid passphrase')
which = 'key'
if secret: # pragma: no cover
if self.version >= (2, 1) and passphrase is None and expect_passphrase:
raise ValueError('For GnuPG >= 2.1, deleting secret keys '
'needs a passphrase to be provided')
which = 'secret-key'
if _is_sequence(fingerprints): # pragma: no cover
fingerprints = [no_quote(s) for s in fingerprints]
else:
fingerprints = [no_quote(fingerprints)]
if exclamation_mode:
fingerprints = [f + '!' for f in fingerprints]
args = ['--delete-%s' % which]
if secret and self.version >= (2, 1):
args.insert(0, '--yes')
args.extend(fingerprints)
result = self.result_map['delete'](self)
if not secret or self.version < (2, 1):
p = self._open_subprocess(args)
self._collect_output(p, result, stdin=p.stdin)
else:
# Need to send in a passphrase.
f = _make_binary_stream('', self.encoding)
try:
self._handle_io(args, f, result, passphrase=passphrase, binary=True)
finally:
f.close()
return result
def export_keys(self,
keyids,
secret=False,
armor=True,
minimal=False,
passphrase=None,
expect_passphrase=True,
output=None):
"""
Export the indicated keys. A 'keyid' is anything `gpg` accepts.
Args:
keyids (str|list[str]): A single keyid or a list of them.
secret (bool): Whether to export secret keys.
armor (bool): Whether to ASCII-armor the output.
minimal (bool): Whether to pass `--export-options export-minimal` to `gpg`.
passphrase (str): The passphrase to use.
expect_passphrase (bool): Whether a passphrase is expected.
output (str): If specified, the path to write the exported key(s) to.
.. note:: Passphrases
Since GnuPG 2.1, you can't export secret keys without providing a passphrase. However, if you're expecting
the passphrase to go to `gpg` via pinentry, you should specify expect_passphrase=False. (It's only checked
for GnuPG >= 2.1).
"""
if passphrase and not self.is_valid_passphrase(passphrase): # pragma: no cover
raise ValueError('Invalid passphrase')
which = ''
if secret:
which = '-secret-key'
if self.version >= (2, 1) and passphrase is None and expect_passphrase: # pragma: no cover
raise ValueError('For GnuPG >= 2.1, exporting secret keys '
'needs a passphrase to be provided')
if _is_sequence(keyids):
keyids = [no_quote(k) for k in keyids]
else:
keyids = [no_quote(keyids)]
args = ['--export%s' % which]
if armor:
args.append('--armor')
if minimal: # pragma: no cover
args.extend(['--export-options', 'export-minimal'])
if output: # pragma: no cover
# write the output to a file with the specified name
self.set_output_without_confirmation(args, output)
args.extend(keyids)
# gpg --export produces no status-fd output; stdout will be
# empty in case of failure
result = self.result_map['export'](self)
if not secret or self.version < (2, 1):
p = self._open_subprocess(args)
self._collect_output(p, result, stdin=p.stdin)
else:
# Need to send in a passphrase.
f = _make_binary_stream('', self.encoding)
try:
self._handle_io(args, f, result, passphrase=passphrase, binary=True)
finally:
f.close()
logger.debug('export_keys result[:100]: %r', result.data[:100])
# Issue #49: Return bytes if armor not specified, else text
result = result.data
if armor:
result = result.decode(self.encoding, self.decode_errors)
return result
def _decode_result(self, result):
lines = result.data.decode(self.encoding, self.decode_errors).splitlines()
valid_keywords = 'pub uid sec fpr sub ssb sig grp'.split()
for line in lines:
if self.verbose: # pragma: no cover
print(line)
logger.debug('line: %r', line.rstrip())
if not line: # pragma: no cover
break
L = line.strip().split(':')
if not L: # pragma: no cover
continue
keyword = L[0]
if keyword in valid_keywords:
getattr(result, keyword)(L)
return result
def _get_list_output(self, p, kind):
# Get the response information
result = self.result_map[kind](self)
self._collect_output(p, result, stdin=p.stdin)
return self._decode_result(result)
def list_keys(self, secret=False, keys=None, sigs=False):
"""
List the keys currently in the keyring.
Args:
secret (bool): Whether to list secret keys.
keys (str|list[str]): A list of key ids to match.
sigs (bool): Whether to include signature information.
Returns:
list[dict]: A list of dictionaries with key information.
"""
if secret:
which = 'secret-keys'
else:
which = 'sigs' if sigs else 'keys'
args = ['--list-%s' % which, '--fingerprint', '--fingerprint'] # get subkey FPs, too
if self.version >= (2, 1):
args.append('--with-keygrip')
if keys:
if isinstance(keys, string_types):
keys = [keys]
args.extend(keys)
p = self._open_subprocess(args)
return self._get_list_output(p, 'list')
def scan_keys(self, filename):
"""
List details of an ascii armored or binary key file without first importing it to the local keyring.
Args:
filename (str): The path to the file containing the key(s).
.. warning:: Warning:
Care is needed. The function works on modern GnuPG by running:
$ gpg --dry-run --import-options import-show --import filename
On older versions, it does the *much* riskier:
$ gpg --with-fingerprint --with-colons filename
"""
if self.version >= (2, 1):
args = ['--dry-run', '--import-options', 'import-show', '--import']
else:
logger.warning('Trying to list packets, but if the file is not a '
'keyring, might accidentally decrypt')
args = ['--with-fingerprint', '--with-colons', '--fixed-list-mode']
args.append(no_quote(filename))
p = self._open_subprocess(args)
return self._get_list_output(p, 'scan')
def scan_keys_mem(self, key_data):
"""
List details of an ascii armored or binary key without first importing it to the local keyring.
Args:
key_data (str|bytes): The key data to import.
.. warning:: Warning:
Care is needed. The function works on modern GnuPG by running:
$ gpg --dry-run --import-options import-show --import filename
On older versions, it does the *much* riskier:
$ gpg --with-fingerprint --with-colons filename
"""
result = self.result_map['scan'](self)
logger.debug('scan_keys: %r', key_data[:256])
data = _make_binary_stream(key_data, self.encoding)
if self.version >= (2, 1):
args = ['--dry-run', '--import-options', 'import-show', '--import']
else:
logger.warning('Trying to list packets, but if the file is not a '
'keyring, might accidentally decrypt')
args = ['--with-fingerprint', '--with-colons', '--fixed-list-mode']
self._handle_io(args, data, result, binary=True)
logger.debug('scan_keys result: %r', result.__dict__)
data.close()
return self._decode_result(result)
def search_keys(self, query, keyserver='pgp.mit.edu', extra_args=None):
"""
search a keyserver by query (using the `--search-keys` option).
Args:
query(str): The query to use.
keyserver (str): The key server hostname.
extra_args (list[str]): Additional arguments to pass to `gpg`.
"""
query = query.strip()
if HEX_DIGITS_RE.match(query):
query = '0x' + query
args = ['--fingerprint', '--keyserver', no_quote(keyserver)]
if extra_args: # pragma: no cover
args.extend(extra_args)
args.extend(['--search-keys', no_quote(query)])
p = self._open_subprocess(args)
# Get the response information
result = self.result_map['search'](self)
self._collect_output(p, result, stdin=p.stdin)
lines = result.data.decode(self.encoding, self.decode_errors).splitlines()
valid_keywords = ['pub', 'uid']
for line in lines:
if self.verbose: # pragma: no cover
print(line)
logger.debug('line: %r', line.rstrip())
if not line: # sometimes get blank lines on Windows
continue
L = line.strip().split(':')
if not L: # pragma: no cover
continue
keyword = L[0]
if keyword in valid_keywords:
getattr(result, keyword)(L)
return result
def gen_key(self, input):
"""
Generate a key; you might use `gen_key_input()` to create the input.
Args:
input (str): The input to the key creation operation.
"""
args = ['--gen-key']
result = self.result_map['generate'](self)
f = _make_binary_stream(input, self.encoding)
self._handle_io(args, f, result, binary=True)
f.close()
return result
def gen_key_input(self, **kwargs):
"""
Generate `--gen-key` input (see `gpg` documentation in DETAILS).
Args:
kwargs (dict): A list of keyword arguments.
Returns:
str: A string suitable for passing to the `gen_key()` method.
"""
parms = {}
no_protection = kwargs.pop('no_protection', False)
for key, val in list(kwargs.items()):
key = key.replace('_', '-').title()
if str(val).strip(): # skip empty strings
parms[key] = val
parms.setdefault('Key-Type', 'RSA')
if 'key_curve' not in kwargs:
parms.setdefault('Key-Length', 2048)
parms.setdefault('Name-Real', 'Autogenerated Key')
logname = (os.environ.get('LOGNAME') or os.environ.get('USERNAME') or 'unspecified')
hostname = socket.gethostname()
parms.setdefault('Name-Email', '%s@%s' % (logname.replace(' ', '_'), hostname))
out = 'Key-Type: %s\n' % parms.pop('Key-Type')
for key, val in list(parms.items()):
out += '%s: %s\n' % (key, val)
if no_protection: # pragma: no cover
out += '%no-protection\n'
out += '%commit\n'
return out
# Key-Type: RSA
# Key-Length: 1024
# Name-Real: ISdlink Server on %s
# Name-Comment: Created by %s
# Name-Email: isdlink@%s
# Expire-Date: 0
# %commit
#
#
# Key-Type: DSA
# Key-Length: 1024
# Subkey-Type: ELG-E
# Subkey-Length: 1024
# Name-Real: Joe Tester
# Name-Comment: with stupid passphrase
# Name-Email: joe@foo.bar
# Expire-Date: 0
# Passphrase: abc
# %pubring foo.pub
# %secring foo.sec
# %commit
def add_subkey(self, master_key, master_passphrase=None, algorithm='rsa', usage='encrypt', expire='-'):
"""
Add subkeys to a master key,
Args:
master_key (str): The master key.
master_passphrase (str): The passphrase for the master key.
algorithm (str): The key algorithm to use.
usage (str): The desired uses for the subkey.
expire (str): The expiration date of the subkey.
"""
if self.version[0] < 2:
raise NotImplementedError('Not available in GnuPG 1.x')
if not master_key: # pragma: no cover
raise ValueError('No master key fingerprint specified')
if master_passphrase and not self.is_valid_passphrase(master_passphrase): # pragma: no cover
raise ValueError('Invalid passphrase')
args = ['--quick-add-key', master_key, algorithm, usage, str(expire)]
result = self.result_map['addSubkey'](self)
f = _make_binary_stream('', self.encoding)
self._handle_io(args, f, result, passphrase=master_passphrase, binary=True)
return result
#
# ENCRYPTION
#
def encrypt_file(self,
fileobj_or_path,
recipients,
sign=None,
always_trust=False,
passphrase=None,
armor=True,
output=None,
symmetric=False,
extra_args=None):
"""
Encrypt data in a file or file-like object.
Args:
fileobj_or_path (str|file): A path to a file or a file-like object containing the data to be encrypted.
recipients (str|list): A key id of a recipient of the encrypted data, or a list of such key ids.
sign (str): If specified, the key id of a signer to sign the encrypted data.
always_trust (bool): Whether to always trust keys.
passphrase (str): The passphrase to use for a signature.
armor (bool): Whether to ASCII-armor the output.
output (str): A path to write the encrypted output to.
symmetric (bool): Whether to use symmetric encryption,
extra_args (list[str]): A list of additional arguments to pass to `gpg`.
"""
if passphrase and not self.is_valid_passphrase(passphrase):
raise ValueError('Invalid passphrase')
args = ['--encrypt']
if symmetric:
# can't be False or None - could be True or a cipher algo value
# such as AES256
args = ['--symmetric']
if symmetric is not True:
args.extend(['--cipher-algo', no_quote(symmetric)])
# else use the default, currently CAST5
else:
if not recipients:
raise ValueError('No recipients specified with asymmetric '
'encryption')
if not _is_sequence(recipients):
recipients = (recipients, )
for recipient in recipients:
args.extend(['--recipient', no_quote(recipient)])
if armor: # create ascii-armored output - False for binary output
args.append('--armor')
if output: # pragma: no cover
# write the output to a file with the specified name
self.set_output_without_confirmation(args, output)
if sign is True: # pragma: no cover
args.append('--sign')
elif sign: # pragma: no cover
args.extend(['--sign', '--default-key', no_quote(sign)])
if always_trust: # pragma: no cover
args.extend(['--trust-model', 'always'])
if extra_args: # pragma: no cover
args.extend(extra_args)
result = self.result_map['crypt'](self)
self._handle_io(args, fileobj_or_path, result, passphrase=passphrase, binary=True)
logger.debug('encrypt result[:100]: %r', result.data[:100])
return result
def encrypt(self, data, recipients, **kwargs):
"""
Encrypt the message contained in the string *data* for *recipients*. This method delegates most of the work to
`encrypt_file()`.
Args:
data (str|bytes): The data to encrypt.
recipients (str|list[str]): A key id of a recipient of the encrypted data, or a list of such key ids.
kwargs (dict): Keyword arguments, which are passed to `encrypt_file()`:
* sign (str): If specified, the key id of a signer to sign the encrypted data.
* always_trust (bool): Whether to always trust keys.
* passphrase (str): The passphrase to use for a signature.
* armor (bool): Whether to ASCII-armor the output.
* output (str): A path to write the encrypted output to.
* symmetric (bool): Whether to use symmetric encryption,
* extra_args (list[str]): A list of additional arguments to pass to `gpg`.
"""
data = _make_binary_stream(data, self.encoding)
result = self.encrypt_file(data, recipients, **kwargs)
data.close()
return result
def decrypt(self, message, **kwargs):
"""
Decrypt the data in *message*. This method delegates most of the work to
`decrypt_file()`.
Args:
message (str|bytes): The data to decrypt. A default key will be used for decryption.
kwargs (dict): Keyword arguments, which are passed to `decrypt_file()`:
* always_trust: Whether to always trust keys.
* passphrase (str): The passphrase to use.
* output (str): If specified, the path to write the decrypted data to.
* extra_args (list[str]): A list of extra arguments to pass to `gpg`.
"""
data = _make_binary_stream(message, self.encoding)
result = self.decrypt_file(data, **kwargs)
data.close()
return result
def decrypt_file(self, fileobj_or_path, always_trust=False, passphrase=None, output=None, extra_args=None):
"""
Decrypt data in a file or file-like object.
Args:
fileobj_or_path (str|file): A path to a file or a file-like object containing the data to be decrypted.
always_trust: Whether to always trust keys.
passphrase (str): The passphrase to use.
output (str): If specified, the path to write the decrypted data to.
extra_args (list[str]): A list of extra arguments to pass to `gpg`.
"""
if passphrase and not self.is_valid_passphrase(passphrase):
raise ValueError('Invalid passphrase')
args = ['--decrypt']
if output: # pragma: no cover
# write the output to a file with the specified name
self.set_output_without_confirmation(args, output)
if always_trust: # pragma: no cover
args.extend(['--trust-model', 'always'])
if extra_args: # pragma: no cover
args.extend(extra_args)
result = self.result_map['crypt'](self)
self._handle_io(args, fileobj_or_path, result, passphrase, binary=True)
logger.debug('decrypt result[:100]: %r', result.data[:100])
return result
def get_recipients(self, message, **kwargs):
""" Get the list of recipients for an encrypted message. This method delegates most of the work to
`get_recipients_file()`.
Args:
message (str|bytes): The encrypted message.
kwargs (dict): Keyword arguments, which are passed to `get_recipients_file()`:
* extra_args (list[str]): A list of extra arguments to pass to `gpg`.
"""
data = _make_binary_stream(message, self.encoding)
result = self.get_recipients_file(data, **kwargs)
data.close()
return result
def get_recipients_file(self, fileobj_or_path, extra_args=None):
"""
Get the list of recipients for an encrypted message in a file or file-like object.
Args:
fileobj_or_path (str|file): A path to a file or file-like object containing the encrypted data.
extra_args (list[str]): A list of extra arguments to pass to `gpg`.
"""
args = ['--decrypt', '--list-only', '-v']
if extra_args: # pragma: no cover
args.extend(extra_args)
result = self.result_map['crypt'](self)
self._handle_io(args, fileobj_or_path, result, binary=True)
ids = []
for m in PUBLIC_KEY_RE.finditer(result.stderr):
ids.append(m.group(1))
return ids
def trust_keys(self, fingerprints, trustlevel):
"""
Set the trust level for one or more keys.
Args:
fingerprints (str|list[str]): A key id for which to set the trust level, or a list of such key ids.
trustlevel (str): The trust level. This is one of the following.
* ``'TRUST_EXPIRED'``
* ``'TRUST_UNDEFINED'``
* ``'TRUST_NEVER'``
* ``'TRUST_MARGINAL'``
* ``'TRUST_FULLY'``
* ``'TRUST_ULTIMATE'``
"""
levels = Verify.TRUST_LEVELS
if trustlevel not in levels:
poss = ', '.join(sorted(levels))
raise ValueError('Invalid trust level: "%s" (must be one of %s)' % (trustlevel, poss))
trustlevel = levels[trustlevel] + 1
import tempfile
try:
fd, fn = tempfile.mkstemp(prefix='pygpg-')
lines = []
if isinstance(fingerprints, string_types):
fingerprints = [fingerprints]
for f in fingerprints:
lines.append('%s:%s:' % (f, trustlevel))
# The trailing newline is required!
s = os.linesep.join(lines) + os.linesep
logger.debug('writing ownertrust info: %s', s)
os.write(fd, s.encode(self.encoding))
os.close(fd)
result = self.result_map['trust'](self)
p = self._open_subprocess(['--import-ownertrust', fn])
self._collect_output(p, result, stdin=p.stdin)
if p.returncode != 0:
raise ValueError('gpg returned an error - return code %d' % p.returncode)
finally:
os.remove(fn)
return result