# -*- coding: utf-8 -*-
#
# This file is part of python-gnupg, a Python interface to GnuPG.
# Copyright © 2013 Isis Lovecruft, <isis@leap.se> 0xA3ADB67A2CDB8B35
# © 2013 Andrej B.
# © 2013 LEAP Encryption Access Project
# © 2008-2012 Vinay Sajip
# © 2005 Steve Traugott
# © 2004 A.M. Kuchling
#
# This program is free software: you can redistribute it and/or modify it
# under the terms of the GNU General Public License as published by the Free
# Software Foundation, either version 3 of the License, or (at your option)
# any later version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE. See the included LICENSE file for details.
'''Classes for parsing GnuPG status messages and sanitising commandline
options.
'''
from __future__ import absolute_import
from __future__ import print_function
try:
from collections import OrderedDict
except ImportError:
from ordereddict import OrderedDict
import re
from . import _util
from ._util import log
ESCAPE_PATTERN = re.compile(r'\\x([0-9a-f][0-9a-f])', re.I)
HEXIDECIMAL = re.compile('([0-9A-Fa-f]{2})+')
[docs]class ProtectedOption(Exception):
"""Raised when the option passed to GPG is disallowed."""
[docs]class UsageError(Exception):
"""Raised when incorrect usage of the API occurs.."""
[docs]def _check_keyserver(location):
"""Check that a given keyserver is a known protocol and does not contain
shell escape characters.
:param str location: A string containing the default keyserver. This
should contain the desired keyserver protocol which
is supported by the keyserver, for example, the
default is ``'hkp://wwwkeys .pgp.net'``.
:rtype: :obj:`str` or :obj:`None`
:returns: A string specifying the protocol and keyserver hostname, if the
checks passed. If not, returns None.
"""
protocols = ['hkp://', 'hkps://', 'http://', 'https://', 'ldap://',
'mailto:'] ## xxx feels like i´m forgetting one...
for proto in protocols:
if location.startswith(proto):
url = location.replace(proto, str())
host, slash, extra = url.partition('/')
if extra: log.warn("URI text for %s: '%s'" % (host, extra))
log.debug("Got host string for keyserver setting: '%s'" % host)
host = _fix_unsafe(host)
if host:
log.debug("Cleaned host string: '%s'" % host)
keyserver = proto + host
return keyserver
return None
[docs]def _check_preferences(prefs, pref_type=None):
"""Check cipher, digest, and compression preference settings.
MD5 is not allowed. This is `not 1994`__. SHA1 is allowed_ grudgingly_.
__ http://www.cs.colorado.edu/~jrblack/papers/md5e-full.pdf
.. _allowed: http://eprint.iacr.org/2008/469.pdf
.. _grudgingly: https://www.schneier.com/blog/archives/2012/10/when_will_we_se.html
"""
if prefs is None: return
cipher = frozenset(['AES256', 'AES192', 'AES128',
'CAMELLIA256', 'CAMELLIA192',
'TWOFISH', '3DES'])
digest = frozenset(['SHA512', 'SHA384', 'SHA256', 'SHA224', 'RMD160',
'SHA1'])
compress = frozenset(['BZIP2', 'ZLIB', 'ZIP', 'Uncompressed'])
all = frozenset([cipher, digest, compress])
if isinstance(prefs, str):
prefs = set(prefs.split())
elif isinstance(prefs, list):
prefs = set(prefs)
else:
msg = "prefs must be list of strings, or space-separated string"
log.error("parsers._check_preferences(): %s" % message)
raise TypeError(message)
if not pref_type:
pref_type = 'all'
allowed = str()
if pref_type == 'cipher':
allowed += ' '.join(prefs.intersection(cipher))
if pref_type == 'digest':
allowed += ' '.join(prefs.intersection(digest))
if pref_type == 'compress':
allowed += ' '.join(prefs.intersection(compress))
if pref_type == 'all':
allowed += ' '.join(prefs.intersection(all))
return allowed
[docs]def _fix_unsafe(shell_input):
"""Find characters used to escape from a string into a shell, and wrap them in
quotes if they exist. Regex pilfered from Python3 :mod:`shlex` module.
:param str shell_input: The input intended for the GnuPG process.
"""
_unsafe = re.compile(r'[^\w@%+=:,./-]', 256)
try:
if len(_unsafe.findall(shell_input)) == 0:
return shell_input.strip()
else:
clean = "'" + shell_input.replace("'", "'\"'\"'") + "'"
return clean
except TypeError:
return None
[docs]def _hyphenate(input, add_prefix=False):
"""Change underscores to hyphens so that object attributes can be easily
tranlated to GPG option names.
:param str input: The attribute to hyphenate.
:param bool add_prefix: If True, add leading hyphens to the input.
:rtype: str
:return: The ``input`` with underscores changed to hyphens.
"""
ret = '--' if add_prefix else ''
ret += input.replace('_', '-')
return ret
[docs]def _is_allowed(input):
"""Check that an option or argument given to GPG is in the set of allowed
options, the latter being a strict subset of the set of all options known
to GPG.
:param str input: An input meant to be parsed as an option or flag to the
GnuPG process. Should be formatted the same as an option
or flag to the commandline gpg, i.e. "--encrypt-files".
:ivar frozenset gnupg_options: All known GPG options and flags.
:ivar frozenset allowed: All allowed GPG options and flags, e.g. all GPG
options and flags which we are willing to
acknowledge and parse. If we want to support a
new option, it will need to have its own parsing
class and its name will need to be added to this
set.
:raises: :exc:`UsageError` if **input** is not a subset of the hard-coded
set of all GnuPG options in :func:`_get_all_gnupg_options`.
:exc:`ProtectedOption` if **input** is not in the set of allowed
options.
:rtype: str
:return: The original **input** parameter, unmodified and unsanitized, if
no errors occur.
"""
gnupg_options = _get_all_gnupg_options()
allowed = _get_options_group("allowed")
## these are the allowed options we will handle so far, all others should
## be dropped. this dance is so that when new options are added later, we
## merely add the to the _allowed list, and the `` _allowed.issubset``
## assertion will check that GPG will recognise them
try:
## check that allowed is a subset of all gnupg_options
assert allowed.issubset(gnupg_options)
except AssertionError:
raise UsageError("'allowed' isn't a subset of known options, diff: %s"
% allowed.difference(gnupg_options))
## if we got a list of args, join them
##
## see TODO file, tag :cleanup:
if not isinstance(input, str):
input = ' '.join([x for x in input])
if isinstance(input, str):
if input.find('_') > 0:
if not input.startswith('--'):
hyphenated = _hyphenate(input, add_prefix=True)
else:
hyphenated = _hyphenate(input)
else:
hyphenated = input
## xxx we probably want to use itertools.dropwhile here
try:
assert hyphenated in allowed
except AssertionError as ae:
dropped = _fix_unsafe(hyphenated)
log.warn("_is_allowed(): Dropping option '%s'..." % dropped)
raise ProtectedOption("Option '%s' not supported." % dropped)
else:
return input
return None
[docs]def _is_hex(string):
"""Check that a string is hexidecimal, with alphabetic characters
capitalized and without whitespace.
:param str string: The string to check.
"""
matched = HEXIDECIMAL.match(string)
if matched is not None and len(matched.group()) >= 2:
return True
return False
[docs]def _is_string(thing):
"""Python character arrays are a mess.
If Python2, check if **thing** is an :obj:`unicode` or a :obj:`str`.
If Python3, check if **thing** is a :obj:`str`.
:param thing: The thing to check.
:returns: ``True`` if **thing** is a string according to whichever version
of Python we're running in.
"""
if _util._py3k: return isinstance(thing, str)
else: return isinstance(thing, basestring)
[docs]def _sanitise(*args):
"""Take an arg or the key portion of a kwarg and check that it is in the
set of allowed GPG options and flags, and that it has the correct
type. Then, attempt to escape any unsafe characters. If an option is not
allowed, drop it with a logged warning. Returns a dictionary of all
sanitised, allowed options.
Each new option that we support that is not a boolean, but instead has
some additional inputs following it, i.e. "--encrypt-file foo.txt", will
need some basic safety checks added here.
GnuPG has three-hundred and eighteen commandline flags. Also, not all
implementations of OpenPGP parse PGP packets and headers in the same way,
so there is added potential there for messing with calls to GPG.
For information on the PGP message format specification, see
:rfc:`1991`.
If you're asking, "Is this *really* necessary?": No, not really -- we could
just follow the security precautions recommended by `this xkcd`__.
__ https://xkcd.com/1181/
:param str args: (optional) The boolean arguments which will be passed to
the GnuPG process.
:rtype: str
:returns: ``sanitised``
"""
## see TODO file, tag :cleanup:sanitise:
def _check_option(arg, value):
"""Check that a single ``arg`` is an allowed option.
If it is allowed, quote out any escape characters in ``value``, and
add the pair to :ivar:`sanitised`. Otherwise, drop them.
:param str arg: The arguments which will be passed to the GnuPG
process, and, optionally their corresponding values.
The values are any additional arguments following the
GnuPG option or flag. For example, if we wanted to
pass ``"--encrypt --recipient isis@leap.se"`` to
GnuPG, then ``"--encrypt"`` would be an arg without a
value, and ``"--recipient"`` would also be an arg,
with a value of ``"isis@leap.se"``.
:ivar list checked: The sanitised, allowed options and values.
:rtype: str
:returns: A string of the items in ``checked``, delimited by spaces.
"""
checked = str()
none_options = _get_options_group("none_options")
hex_options = _get_options_group("hex_options")
hex_or_none_options = _get_options_group("hex_or_none_options")
if not _util._py3k:
if not isinstance(arg, list) and isinstance(arg, unicode):
arg = str(arg)
try:
flag = _is_allowed(arg)
assert flag is not None, "_check_option(): got None for flag"
except (AssertionError, ProtectedOption) as error:
log.warn("_check_option(): %s" % str(error))
else:
checked += (flag + ' ')
if _is_string(value):
values = value.split(' ')
for v in values:
## these can be handled separately, without _fix_unsafe(),
## because they are only allowed if they pass the regex
if (flag in none_options) and (v is None):
continue
if flag in hex_options:
if _is_hex(v): checked += (v + " ")
else:
log.debug("'%s %s' not hex." % (flag, v))
if (flag in hex_or_none_options) and (v is None):
log.debug("Allowing '%s' for all keys" % flag)
continue
elif flag in ['--keyserver']:
host = _check_keyserver(v)
if host:
log.debug("Setting keyserver: %s" % host)
checked += (v + " ")
else: log.debug("Dropping keyserver: %s" % v)
continue
## the rest are strings, filenames, etc, and should be
## shell escaped:
val = _fix_unsafe(v)
try:
assert not val is None
assert not val.isspace()
assert not v is None
assert not v.isspace()
except:
log.debug("Dropping %s %s" % (flag, v))
continue
if flag in ['--encrypt', '--encrypt-files', '--decrypt',
'--decrypt-files', '--import', '--verify']:
if ( (_util._is_file(val))
or
((flag == '--verify') and (val == '-')) ):
checked += (val + " ")
else:
log.debug("%s not file: %s" % (flag, val))
elif flag in ['--cipher-algo', '--personal-cipher-prefs',
'--personal-cipher-preferences']:
legit_algos = _check_preferences(val, 'cipher')
if legit_algos: checked += (legit_algos + " ")
else: log.debug("'%s' is not cipher" % val)
elif flag in ['--compress-algo', '--compression-algo',
'--personal-compress-prefs',
'--personal-compress-preferences']:
legit_algos = _check_preferences(val, 'compress')
if legit_algos: checked += (legit_algos + " ")
else: log.debug("'%s' not compress algo" % val)
else:
checked += (val + " ")
log.debug("_check_option(): No checks for %s" % val)
return checked
is_flag = lambda x: x.startswith('--')
def _make_filo(args_string):
filo = arg.split(' ')
filo.reverse()
log.debug("_make_filo(): Converted to reverse list: %s" % filo)
return filo
def _make_groups(filo):
groups = {}
while len(filo) >= 1:
last = filo.pop()
if is_flag(last):
log.debug("Got arg: %s" % last)
if last == '--verify':
groups[last] = str(filo.pop())
## accept the read-from-stdin arg:
if len(filo) >= 1 and filo[len(filo)-1] == '-':
groups[last] += str(' - ') ## gross hack
filo.pop()
else:
groups[last] = str()
while len(filo) > 1 and not is_flag(filo[len(filo)-1]):
log.debug("Got value: %s" % filo[len(filo)-1])
groups[last] += (filo.pop() + " ")
else:
if len(filo) == 1 and not is_flag(filo[0]):
log.debug("Got value: %s" % filo[0])
groups[last] += filo.pop()
else:
log.warn("_make_groups(): Got solitary value: %s" % last)
groups["xxx"] = last
return groups
def _check_groups(groups):
log.debug("Got groups: %s" % groups)
checked_groups = []
for a,v in groups.items():
v = None if len(v) == 0 else v
safe = _check_option(a, v)
if safe is not None and not safe.strip() == "":
log.debug("Appending option: %s" % safe)
checked_groups.append(safe)
else:
log.warn("Dropped option: '%s %s'" % (a,v))
return checked_groups
if args is not None:
option_groups = {}
for arg in args:
## if we're given a string with a bunch of options in it split
## them up and deal with them separately
if (not _util._py3k and isinstance(arg, basestring)) \
or (_util._py3k and isinstance(arg, str)):
log.debug("Got arg string: %s" % arg)
if arg.find(' ') > 0:
filo = _make_filo(arg)
option_groups.update(_make_groups(filo))
else:
option_groups.update({ arg: "" })
elif isinstance(arg, list):
log.debug("Got arg list: %s" % arg)
arg.reverse()
option_groups.update(_make_groups(arg))
else:
log.warn("Got non-str/list arg: '%s', type '%s'"
% (arg, type(arg)))
checked = _check_groups(option_groups)
sanitised = ' '.join(x for x in checked)
return sanitised
else:
log.debug("Got None for args")
[docs]def _sanitise_list(arg_list):
"""A generator for iterating through a list of gpg options and sanitising
them.
:param list arg_list: A list of options and flags for GnuPG.
:rtype: generator
:returns: A generator whose next() method returns each of the items in
``arg_list`` after calling ``_sanitise()`` with that item as a
parameter.
"""
if isinstance(arg_list, list):
for arg in arg_list:
safe_arg = _sanitise(arg)
if safe_arg != "":
yield safe_arg
[docs]def _get_options_group(group=None):
"""Get a specific group of options which are allowed."""
#: These expect a hexidecimal keyid as their argument, and can be parsed
#: with :func:`_is_hex`.
hex_options = frozenset(['--check-sigs',
'--default-key',
'--default-recipient',
'--delete-keys',
'--delete-secret-keys',
'--delete-secret-and-public-keys',
'--desig-revoke',
'--export',
'--export-secret-keys',
'--export-secret-subkeys',
'--fingerprint',
'--gen-revoke',
'--list-key',
'--list-keys',
'--list-public-keys',
'--list-secret-keys',
'--list-sigs',
'--recipient',
'--recv-keys',
'--send-keys',
])
#: These options expect value which are left unchecked, though still run
#: through :func:`_fix_unsafe`.
unchecked_options = frozenset(['--list-options',
'--passphrase-fd',
'--status-fd',
'--verify-options',
])
#: These have their own parsers and don't really fit into a group
other_options = frozenset(['--debug-level',
'--keyserver',
])
#: These should have a directory for an argument
dir_options = frozenset(['--homedir',
])
#: These expect a keyring or keyfile as their argument
keyring_options = frozenset(['--keyring',
'--primary-keyring',
'--secret-keyring',
'--trustdb-name',
])
#: These expect a filename (or the contents of a file as a string) or None
#: (meaning that they read from stdin)
file_or_none_options = frozenset(['--decrypt',
'--decrypt-files',
'--encrypt',
'--encrypt-files',
'--import',
'--verify',
'--verify-files',
])
#: These options expect a string. see :func:`_check_preferences`.
pref_options = frozenset(['--digest-algo',
'--cipher-algo',
'--compress-algo',
'--compression-algo',
'--cert-digest-algo',
'--personal-digest-prefs',
'--personal-digest-preferences',
'--personal-cipher-prefs',
'--personal-cipher-preferences',
'--personal-compress-prefs',
'--personal-compress-preferences',
'--print-md',
])
#: These options expect no arguments
none_options = frozenset(['--always-trust',
'--armor',
'--armour',
'--batch',
'--check-sigs',
'--check-trustdb',
'--clearsign',
'--debug-all',
'--default-recipient-self',
'--detach-sign',
'--export',
'--export-ownertrust',
'--export-secret-keys',
'--export-secret-subkeys',
'--fingerprint',
'--fixed-list-mode',
'--gen-key',
'--import-ownertrust',
'--list-config',
'--list-key',
'--list-keys',
'--list-packets',
'--list-public-keys',
'--list-secret-keys',
'--list-sigs',
'--no-default-keyring',
'--no-default-recipient',
'--no-emit-version',
'--no-options',
'--no-tty',
'--no-use-agent',
'--no-verbose',
'--print-mds',
'--quiet',
'--sign',
'--symmetric',
'--use-agent',
'--verbose',
'--version',
'--with-colons',
'--yes',
])
#: These options expect either None or a hex string
hex_or_none_options = hex_options.intersection(none_options)
allowed = hex_options.union(unchecked_options, other_options, dir_options,
keyring_options, file_or_none_options,
pref_options, none_options)
if group and group in locals().keys():
return locals()[group]
[docs]def _get_all_gnupg_options():
"""Get all GnuPG options and flags.
This is hardcoded within a local scope to reduce the chance of a tampered
GnuPG binary reporting falsified option sets, i.e. because certain options
(namedly the ``--no-options`` option, which prevents the usage of gpg.conf
files) are necessary and statically specified in
:meth:`gnupg._meta.GPGBase._make_args`, if the inputs into Python are
already controlled, and we were to summon the GnuPG binary to ask it for
its options, it would be possible to receive a falsified options set
missing the ``--no-options`` option in response. This seems unlikely, and
the method is stupid and ugly, but at least we'll never have to debug
whether or not an option *actually* disappeared in a different GnuPG
version, or some funny business is happening.
These are the options as of GnuPG 1.4.12; the current stable branch of the
2.1.x tree contains a few more -- if you need them you'll have to add them
in here.
:type gnupg_options: frozenset
:ivar gnupg_options: All known GPG options and flags.
:rtype: frozenset
:returns: ``gnupg_options``
"""
three_hundred_eighteen = ("""
--allow-freeform-uid --multifile
--allow-multiple-messages --no
--allow-multisig-verification --no-allow-freeform-uid
--allow-non-selfsigned-uid --no-allow-multiple-messages
--allow-secret-key-import --no-allow-non-selfsigned-uid
--always-trust --no-armor
--armor --no-armour
--armour --no-ask-cert-expire
--ask-cert-expire --no-ask-cert-level
--ask-cert-level --no-ask-sig-expire
--ask-sig-expire --no-auto-check-trustdb
--attribute-fd --no-auto-key-locate
--attribute-file --no-auto-key-retrieve
--auto-check-trustdb --no-batch
--auto-key-locate --no-comments
--auto-key-retrieve --no-default-keyring
--batch --no-default-recipient
--bzip2-compress-level --no-disable-mdc
--bzip2-decompress-lowmem --no-emit-version
--card-edit --no-encrypt-to
--card-status --no-escape-from-lines
--cert-digest-algo --no-expensive-trust-checks
--cert-notation --no-expert
--cert-policy-url --no-force-mdc
--change-pin --no-force-v3-sigs
--charset --no-force-v4-certs
--check-sig --no-for-your-eyes-only
--check-sigs --no-greeting
--check-trustdb --no-groups
--cipher-algo --no-literal
--clearsign --no-mangle-dos-filenames
--command-fd --no-mdc-warning
--command-file --no-options
--comment --no-permission-warning
--completes-needed --no-pgp2
--compress-algo --no-pgp6
--compression-algo --no-pgp7
--compress-keys --no-pgp8
--compress-level --no-random-seed-file
--compress-sigs --no-require-backsigs
--ctapi-driver --no-require-cross-certification
--dearmor --no-require-secmem
--dearmour --no-rfc2440-text
--debug --no-secmem-warning
--debug-all --no-show-notation
--debug-ccid-driver --no-show-photos
--debug-level --no-show-policy-url
--decrypt --no-sig-cache
--decrypt-files --no-sig-create-check
--default-cert-check-level --no-sk-comments
--default-cert-expire --no-strict
--default-cert-level --notation-data
--default-comment --not-dash-escaped
--default-key --no-textmode
--default-keyserver-url --no-throw-keyid
--default-preference-list --no-throw-keyids
--default-recipient --no-tty
--default-recipient-self --no-use-agent
--default-sig-expire --no-use-embedded-filename
--delete-keys --no-utf8-strings
--delete-secret-and-public-keys --no-verbose
--delete-secret-keys --no-version
--desig-revoke --openpgp
--detach-sign --options
--digest-algo --output
--disable-ccid --override-session-key
--disable-cipher-algo --passphrase
--disable-dsa2 --passphrase-fd
--disable-mdc --passphrase-file
--disable-pubkey-algo --passphrase-repeat
--display --pcsc-driver
--display-charset --personal-cipher-preferences
--dry-run --personal-cipher-prefs
--dump-options --personal-compress-preferences
--edit-key --personal-compress-prefs
--emit-version --personal-digest-preferences
--enable-dsa2 --personal-digest-prefs
--enable-progress-filter --pgp2
--enable-special-filenames --pgp6
--enarmor --pgp7
--enarmour --pgp8
--encrypt --photo-viewer
--encrypt-files --pipemode
--encrypt-to --preserve-permissions
--escape-from-lines --primary-keyring
--exec-path --print-md
--exit-on-status-write-error --print-mds
--expert --quick-random
--export --quiet
--export-options --reader-port
--export-ownertrust --rebuild-keydb-caches
--export-secret-keys --recipient
--export-secret-subkeys --recv-keys
--fast-import --refresh-keys
--fast-list-mode --remote-user
--fetch-keys --require-backsigs
--fingerprint --require-cross-certification
--fixed-list-mode --require-secmem
--fix-trustdb --rfc1991
--force-mdc --rfc2440
--force-ownertrust --rfc2440-text
--force-v3-sigs --rfc4880
--force-v4-certs --run-as-shm-coprocess
--for-your-eyes-only --s2k-cipher-algo
--gen-key --s2k-count
--gen-prime --s2k-digest-algo
--gen-random --s2k-mode
--gen-revoke --search-keys
--gnupg --secret-keyring
--gpg-agent-info --send-keys
--gpgconf-list --set-filename
--gpgconf-test --set-filesize
--group --set-notation
--help --set-policy-url
--hidden-encrypt-to --show-keyring
--hidden-recipient --show-notation
--homedir --show-photos
--honor-http-proxy --show-policy-url
--ignore-crc-error --show-session-key
--ignore-mdc-error --sig-keyserver-url
--ignore-time-conflict --sign
--ignore-valid-from --sign-key
--import --sig-notation
--import-options --sign-with
--import-ownertrust --sig-policy-url
--interactive --simple-sk-checksum
--keyid-format --sk-comments
--keyring --skip-verify
--keyserver --status-fd
--keyserver-options --status-file
--lc-ctype --store
--lc-messages --strict
--limit-card-insert-tries --symmetric
--list-config --temp-directory
--list-key --textmode
--list-keys --throw-keyid
--list-only --throw-keyids
--list-options --trustdb-name
--list-ownertrust --trusted-key
--list-packets --trust-model
--list-public-keys --try-all-secrets
--list-secret-keys --ttyname
--list-sig --ttytype
--list-sigs --ungroup
--list-trustdb --update-trustdb
--load-extension --use-agent
--local-user --use-embedded-filename
--lock-multiple --user
--lock-never --utf8-strings
--lock-once --verbose
--logger-fd --verify
--logger-file --verify-files
--lsign-key --verify-options
--mangle-dos-filenames --version
--marginals-needed --warranty
--max-cert-depth --with-colons
--max-output --with-fingerprint
--merge-only --with-key-data
--min-cert-level --yes
""").split()
# These are extra options which only exist for GnuPG>=2.0.0
three_hundred_eighteen.append('--export-ownertrust')
three_hundred_eighteen.append('--import-ownertrust')
gnupg_options = frozenset(three_hundred_eighteen)
return gnupg_options
[docs]def nodata(status_code):
"""Translate NODATA status codes from GnuPG to messages."""
lookup = {
'1': 'No armored data.',
'2': 'Expected a packet but did not find one.',
'3': 'Invalid packet found, this may indicate a non OpenPGP message.',
'4': 'Signature expected but not found.' }
for key, value in lookup.items():
if str(status_code) == key:
return value
[docs]def progress(status_code):
"""Translate PROGRESS status codes from GnuPG to messages."""
lookup = {
'pk_dsa': 'DSA key generation',
'pk_elg': 'Elgamal key generation',
'primegen': 'Prime generation',
'need_entropy': 'Waiting for new entropy in the RNG',
'tick': 'Generic tick without any special meaning - still working.',
'starting_agent': 'A gpg-agent was started.',
'learncard': 'gpg-agent or gpgsm is learning the smartcard data.',
'card_busy': 'A smartcard is still working.' }
for key, value in lookup.items():
if str(status_code) == key:
return value
[docs]class GenKey(object):
"""Handle status messages for key generation.
Calling the ``__str__()`` method of this class will return the generated
key's fingerprint, or a status string explaining the results.
"""
def __init__(self, gpg):
self._gpg = gpg
## this should get changed to something more useful, like 'key_type'
#: 'P':= primary, 'S':= subkey, 'B':= both
self.type = None
self.fingerprint = None
self.status = None
self.subkey_created = False
self.primary_created = False
#: This will store the key's public keyring filename, if
#: :meth:`~gnupg.GPG.gen_key_input` was called with
#: ``separate_keyring=True``.
self.keyring = None
#: This will store the key's secret keyring filename, if :
#: :meth:`~gnupg.GPG.gen_key_input` was called with
#: ``separate_keyring=True``.
self.secring = None
def __nonzero__(self):
if self.fingerprint: return True
return False
__bool__ = __nonzero__
def __str__(self):
if self.fingerprint:
return self.fingerprint
else:
if self.status is not None:
return self.status
else:
return False
[docs] def _handle_status(self, key, value):
"""Parse a status code from the attached GnuPG process.
:raises: :exc:`~exceptions.ValueError` if the status message is unknown.
"""
if key in ("GOOD_PASSPHRASE"):
pass
elif key == "KEY_NOT_CREATED":
self.status = 'key not created'
elif key == "KEY_CREATED":
(self.type, self.fingerprint) = value.split()
self.status = 'key created'
elif key == "NODATA":
self.status = nodata(value)
elif key == "PROGRESS":
self.status = progress(value.split(' ', 1)[0])
else:
raise ValueError("Unknown status message: %r" % key)
if self.type in ('B', 'P'):
self.primary_created = True
if self.type in ('B', 'S'):
self.subkey_created = True
[docs]class DeleteResult(object):
"""Handle status messages for --delete-keys and --delete-secret-keys"""
def __init__(self, gpg):
self._gpg = gpg
self.status = 'ok'
def __str__(self):
return self.status
problem_reason = { '1': 'No such key',
'2': 'Must delete secret key first',
'3': 'Ambigious specification', }
[docs] def _handle_status(self, key, value):
"""Parse a status code from the attached GnuPG process.
:raises: :exc:`~exceptions.ValueError` if the status message is unknown.
"""
if key == "DELETE_PROBLEM":
self.status = self.problem_reason.get(value, "Unknown error: %r"
% value)
else:
raise ValueError("Unknown status message: %r" % key)
[docs]class Sign(object):
"""Parse GnuPG status messages for signing operations.
:param gpg: An instance of :class:`gnupg.GPG`.
"""
#: The type of signature created.
sig_type = None
#: The algorithm used to create the signature.
sig_algo = None
#: The hash algorithm used to create the signature.
sig_hash_also = None
#: The fingerprint of the signing keyid.
fingerprint = None
#: The timestamp on the signature.
timestamp = None
#: xxx fill me in
what = None
def __init__(self, gpg):
self._gpg = gpg
def __nonzero__(self):
"""Override the determination for truthfulness evaluation.
:rtype: bool
:returns: True if we have a valid signature, False otherwise.
"""
return self.fingerprint is not None
__bool__ = __nonzero__
def __str__(self):
return self.data.decode(self._gpg._encoding, self._gpg._decode_errors)
[docs] def _handle_status(self, key, value):
"""Parse a status code from the attached GnuPG process.
:raises: :exc:`~exceptions.ValueError` if the status message is unknown.
"""
if key in ("USERID_HINT", "NEED_PASSPHRASE", "BAD_PASSPHRASE",
"GOOD_PASSPHRASE", "BEGIN_SIGNING", "CARDCTRL",
"INV_SGNR", "SIGEXPIRED"):
pass
elif key == "SIG_CREATED":
(self.sig_type, self.sig_algo, self.sig_hash_algo,
self.what, self.timestamp, self.fingerprint) = value.split()
elif key == "KEYEXPIRED":
self.status = "skipped signing key, key expired"
if (value is not None) and (len(value) > 0):
self.status += " on {}".format(str(value))
elif key == "KEYREVOKED":
self.status = "skipped signing key, key revoked"
if (value is not None) and (len(value) > 0):
self.status += " on {}".format(str(value))
elif key == "NODATA":
self.status = nodata(value)
else:
raise ValueError("Unknown status message: %r" % key)
[docs]class ListKeys(list):
"""Handle status messages for --list-keys.
Handles pub and uid (relating the latter to the former). Don't care about
the following attributes/status messages (from doc/DETAILS):
| crt = X.509 certificate
| crs = X.509 certificate and private key available
| ssb = secret subkey (secondary key)
| 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
"""
def __init__(self, gpg):
super(ListKeys, self).__init__()
self._gpg = gpg
self.curkey = None
self.fingerprints = []
self.uids = []
[docs] def key(self, args):
vars = ("""
type trust length algo keyid date expires dummy ownertrust uid
""").split()
self.curkey = {}
for i in range(len(vars)):
self.curkey[vars[i]] = args[i]
self.curkey['uids'] = []
if self.curkey['uid']:
self.curkey['uids'].append(self.curkey['uid'])
del self.curkey['uid']
self.curkey['subkeys'] = []
self.append(self.curkey)
pub = sec = key
[docs] def fpr(self, args):
self.curkey['fingerprint'] = args[9]
self.fingerprints.append(args[9])
[docs] def uid(self, args):
uid = args[9]
uid = ESCAPE_PATTERN.sub(lambda m: chr(int(m.group(1), 16)), uid)
self.curkey['uids'].append(uid)
self.uids.append(uid)
[docs] def sub(self, args):
subkey = [args[4], args[11]]
self.curkey['subkeys'].append(subkey)
[docs] def _handle_status(self, key, value):
pass
[docs]class ImportResult(object):
"""Parse GnuPG status messages for key import operations.
:type gpg: :class:`gnupg.GPG`
:param gpg: An instance of :class:`gnupg.GPG`.
"""
_ok_reason = {'0': 'Not actually changed',
'1': 'Entirely new key',
'2': 'New user IDs',
'4': 'New signatures',
'8': 'New subkeys',
'16': 'Contains private key',
'17': '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', }
_fields = '''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()
_counts = OrderedDict(
zip(_fields, [int(0) for x in range(len(_fields))]) )
#: A list of strings containing the fingerprints of the GnuPG keyIDs
#: imported.
fingerprints = list()
#: A list containing dictionaries with information gathered on keys
#: imported.
results = list()
def __init__(self, gpg):
self._gpg = gpg
self.counts = self._counts
def __nonzero__(self):
"""Override the determination for truthfulness evaluation.
:rtype: bool
:returns: True if we have immport some keys, False otherwise.
"""
if self.counts.not_imported > 0: return False
if len(self.fingerprints) == 0: return False
return True
__bool__ = __nonzero__
[docs] def _handle_status(self, key, value):
"""Parse a status code from the attached GnuPG process.
:raises: :exc:`~exceptions.ValueError` if the status message is unknown.
"""
if key == "IMPORTED":
# this duplicates info we already see in import_ok & import_problem
pass
elif key == "NODATA":
self.results.append({'fingerprint': None,
'status': 'No valid data found'})
elif key == "IMPORT_OK":
reason, fingerprint = value.split()
reasons = []
for code, text in self._ok_reason.items():
if int(reason) == int(code):
reasons.append(text)
reasontext = '\n'.join(reasons) + "\n"
self.results.append({'fingerprint': fingerprint,
'status': reasontext})
self.fingerprints.append(fingerprint)
elif key == "IMPORT_PROBLEM":
try:
reason, fingerprint = value.split()
except:
reason = value
fingerprint = '<unknown>'
self.results.append({'fingerprint': fingerprint,
'status': self._problem_reason[reason]})
elif key == "IMPORT_RES":
import_res = value.split()
for x in self.counts.keys():
self.counts[x] = int(import_res.pop(0))
elif key == "KEYEXPIRED":
res = {'fingerprint': None,
'status': 'Key expired'}
self.results.append(res)
## Accoring to docs/DETAILS L859, SIGEXPIRED is obsolete:
## "Removed on 2011-02-04. This is deprecated in favor of KEYEXPIRED."
elif key == "SIGEXPIRED":
res = {'fingerprint': None,
'status': 'Signature expired'}
self.results.append(res)
else:
raise ValueError("Unknown status message: %r" % key)
[docs] def summary(self):
l = []
l.append('%d imported' % self.counts['imported'])
if self.counts['not_imported']:
l.append('%d not imported' % self.counts['not_imported'])
return ', '.join(l)
[docs]class Verify(object):
"""Parser for status messages from GnuPG for certifications and signature
verifications.
People often mix these up, or think that they are the same thing. While it
is true that certifications and signatures *are* the same cryptographic
operation -- and also true that both are the same as the decryption
operation -- a distinction is made for important reasons.
A certification:
* is made on a key,
* can help to validate or invalidate the key owner's identity,
* can assign trust levels to the key (or to uids and/or subkeys that
the key contains),
* and can be used in absense of in-person fingerprint checking to try
to build a path (through keys whose fingerprints have been checked)
to the key, so that the identity of the key's owner can be more
reliable without having to actually physically meet in person.
A signature:
* is created for a file or other piece of data,
* can help to prove that the data hasn't been altered,
* and can help to prove that the data was sent by the person(s) in
possession of the private key that created the signature, and for
parsing portions of status messages from decryption operations.
There are probably other things unique to each that have been
scatterbrainedly omitted due to the programmer sitting still and staring
at GnuPG debugging logs for too long without snacks, but that is the gist
of it.
"""
TRUST_UNDEFINED = 0
TRUST_NEVER = 1
TRUST_MARGINAL = 2
TRUST_FULLY = 3
TRUST_ULTIMATE = 4
TRUST_LEVELS = {"TRUST_UNDEFINED" : TRUST_UNDEFINED,
"TRUST_NEVER" : TRUST_NEVER,
"TRUST_MARGINAL" : TRUST_MARGINAL,
"TRUST_FULLY" : TRUST_FULLY,
"TRUST_ULTIMATE" : TRUST_ULTIMATE,}
def __init__(self, gpg):
"""Create a parser for verification and certification commands.
:param gpg: An instance of :class:`gnupg.GPG`.
"""
self._gpg = gpg
#: True if the signature is valid, False otherwise.
self.valid = False
#: A string describing the status of the signature verification.
#: Can be one of ``signature bad``, ``signature good``,
#: ``signature valid``, ``signature error``, ``decryption failed``,
#: ``no public key``, ``key exp``, or ``key rev``.
self.status = None
#: The fingerprint of the signing keyid.
self.fingerprint = None
#: The fingerprint of the corresponding public key, which may be
#: different if the signature was created with a subkey.
self.pubkey_fingerprint = None
#: The keyid of the signing key.
self.key_id = None
#: The id of the signature itself.
self.signature_id = None
#: The creation date of the signing key.
self.creation_date = None
#: The timestamp of the purported signature, if we are unable to parse
#: and/or validate it.
self.timestamp = None
#: The timestamp for when the valid signature was created.
self.sig_timestamp = None
#: The userid of the signing key which was used to create the
#: signature.
self.username = None
#: When the signing key is due to expire.
self.expire_timestamp = None
#: An integer 0-4 describing the trust level of the signature.
self.trust_level = None
#: The string corresponding to the ``trust_level`` number.
self.trust_text = None
def __nonzero__(self):
"""Override the determination for truthfulness evaluation.
:rtype: bool
:returns: True if we have a valid signature, False otherwise.
"""
return self.valid
__bool__ = __nonzero__
[docs] def _handle_status(self, key, value):
"""Parse a status code from the attached GnuPG process.
:raises: :exc:`~exceptions.ValueError` if the status message is unknown.
"""
if key in self.TRUST_LEVELS:
self.trust_text = key
self.trust_level = self.TRUST_LEVELS[key]
elif key in ("RSA_OR_IDEA", "NODATA", "IMPORT_RES", "PLAINTEXT",
"PLAINTEXT_LENGTH", "POLICY_URL", "DECRYPTION_INFO",
"DECRYPTION_OKAY", "INV_SGNR"):
pass
elif key == "BADSIG":
self.valid = False
self.status = 'signature bad'
self.key_id, self.username = value.split(None, 1)
elif key == "GOODSIG":
self.valid = True
self.status = 'signature good'
self.key_id, self.username = value.split(None, 1)
elif key == "VALIDSIG":
(self.fingerprint,
self.creation_date,
self.sig_timestamp,
self.expire_timestamp) = value.split()[:4]
# may be different if signature is made with a subkey
self.pubkey_fingerprint = value.split()[-1]
self.status = 'signature valid'
elif key == "SIG_ID":
(self.signature_id,
self.creation_date, self.timestamp) = value.split()
elif key == "ERRSIG":
self.valid = False
(self.key_id,
algo, hash_algo,
cls,
self.timestamp) = value.split()[:5]
self.status = 'signature error'
elif key == "DECRYPTION_FAILED":
self.valid = False
self.key_id = value
self.status = 'decryption failed'
elif key == "NO_PUBKEY":
self.valid = False
self.key_id = value
self.status = 'no public key'
elif key in ("KEYEXPIRED", "SIGEXPIRED"):
# these are useless in verify, since they are spit out for any
# pub/subkeys on the key, not just the one doing the signing.
# if we want to check for signatures with expired key,
# the relevant flag is EXPKEYSIG.
pass
elif key in ("EXPKEYSIG", "REVKEYSIG"):
# signed with expired or revoked key
self.valid = False
self.key_id = value.split()[0]
self.status = (('%s %s') % (key[:3], key[3:])).lower()
else:
raise ValueError("Unknown status message: %r" % key)
[docs]class Crypt(Verify):
"""Parser for internal status messages from GnuPG for ``--encrypt``,
``--decrypt``, and ``--decrypt-files``.
"""
def __init__(self, gpg):
Verify.__init__(self, gpg)
self._gpg = gpg
#: A string containing the encrypted or decrypted data.
self.data = ''
#: True if the decryption/encryption process turned out okay.
self.ok = False
#: A string describing the current processing status, or error, if one
#: has occurred.
self.status = None
self.data_format = None
self.data_timestamp = None
self.data_filename = None
def __nonzero__(self):
if self.ok: return True
return False
__bool__ = __nonzero__
def __str__(self):
"""The str() method for a :class:`Crypt` object will automatically return the
decoded data string, which stores the encryped or decrypted data.
In other words, these two statements are equivalent:
>>> assert decrypted.data == str(decrypted)
"""
return self.data.decode(self._gpg._encoding, self._gpg._decode_errors)
[docs] def _handle_status(self, key, value):
"""Parse a status code from the attached GnuPG process.
:raises: :exc:`~exceptions.ValueError` if the status message is unknown.
"""
if key in ("ENC_TO", "USERID_HINT", "GOODMDC", "END_DECRYPTION",
"BEGIN_SIGNING", "NO_SECKEY", "ERROR", "NODATA",
"CARDCTRL"):
# in the case of ERROR, this is because a more specific error
# message will have come first
pass
elif key in ("NEED_PASSPHRASE", "BAD_PASSPHRASE", "GOOD_PASSPHRASE",
"MISSING_PASSPHRASE", "DECRYPTION_FAILED",
"KEY_NOT_CREATED"):
self.status = key.replace("_", " ").lower()
elif key == "NEED_TRUSTDB":
self._gpg._create_trustdb()
elif key == "NEED_PASSPHRASE_SYM":
self.status = 'need symmetric passphrase'
elif key == "BEGIN_DECRYPTION":
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":
self.status = 'invalid recipient'
elif key == "KEYEXPIRED":
self.status = 'key expired'
elif key == "KEYREVOKED":
self.status = 'key revoked'
elif key == "SIG_CREATED":
self.status = 'sig created'
elif key == "SIGEXPIRED":
self.status = 'sig expired'
elif key == "PLAINTEXT":
fmt, dts = value.split(' ', 1)
if dts.find(' ') > 0:
self.data_timestamp, self.data_filename = dts.split(' ', 1)
else:
self.data_timestamp = dts
## GnuPG gives us a hex byte for an ascii char corresponding to
## the data format of the resulting plaintext,
## i.e. '62'→'b':= binary data
self.data_format = chr(int(str(fmt), 16))
else:
super(Crypt, self)._handle_status(key, value)
[docs]class ListPackets(object):
"""Handle status messages for --list-packets."""
def __init__(self, gpg):
self._gpg = gpg
#: A string describing the current processing status, or error, if one
#: has occurred.
self.status = None
#: True if the passphrase to a public/private keypair is required.
self.need_passphrase = None
#: True if a passphrase for a symmetric key is required.
self.need_passphrase_sym = None
#: The keyid and uid which this data is encrypted to.
self.userid_hint = None
[docs] def _handle_status(self, key, value):
"""Parse a status code from the attached GnuPG process.
:raises: :exc:`~exceptions.ValueError` if the status message is unknown.
"""
if key == 'NODATA':
self.status = nodata(value)
elif key == 'ENC_TO':
# This will only capture keys in our keyring. In the future we
# may want to include multiple unknown keys in this list.
self.key, _, _ = value.split()
elif key == 'NEED_PASSPHRASE':
self.need_passphrase = True
elif key == 'NEED_PASSPHRASE_SYM':
self.need_passphrase_sym = True
elif key == 'USERID_HINT':
self.userid_hint = value.strip().split()
elif key in ('NO_SECKEY', 'BEGIN_DECRYPTION', 'DECRYPTION_FAILED',
'END_DECRYPTION'):
pass
else:
raise ValueError("Unknown status message: %r" % key)