File: //kunden/proc/self/root/lib/python3/dist-packages/breezy/gpg.py
# Copyright (C) 2005, 2006, 2007, 2009, 2011, 2012, 2013, 2016 Canonical Ltd
# Authors: Robert Collins <robert.collins@canonical.com>
#
# 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 2 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
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
"""GPG signing and checking logic."""
from __future__ import absolute_import
import os
from breezy.lazy_import import lazy_import
lazy_import(globals(), """
from breezy import (
config,
trace,
ui,
)
from breezy.i18n import (
gettext,
ngettext,
)
""")
from . import (
errors,
)
from .sixish import (
text_type,
)
# verification results
SIGNATURE_VALID = 0
SIGNATURE_KEY_MISSING = 1
SIGNATURE_NOT_VALID = 2
SIGNATURE_NOT_SIGNED = 3
SIGNATURE_EXPIRED = 4
MODE_NORMAL = 0
MODE_DETACH = 1
MODE_CLEAR = 2
class GpgNotInstalled(errors.DependencyNotPresent):
_fmt = ('python-gpg is not installed, it is needed to create or '
'verify signatures. %(error)s')
def __init__(self, error):
errors.DependencyNotPresent.__init__(self, 'gpg', error)
class SigningFailed(errors.BzrError):
_fmt = 'Failed to GPG sign data: "%(error)s"'
def __init__(self, error):
errors.BzrError.__init__(self, error=error)
class SignatureVerificationFailed(errors.BzrError):
_fmt = 'Failed to verify GPG signature data with error "%(error)s"'
def __init__(self, error):
errors.BzrError.__init__(self, error=error)
def bulk_verify_signatures(repository, revids, strategy,
process_events_callback=None):
"""Do verifications on a set of revisions
:param repository: repository object
:param revids: list of revision ids to verify
:param strategy: GPG strategy to use
:param process_events_callback: method to call for GUI frontends that
want to keep their UI refreshed
:return: count dictionary of results of each type,
result list for each revision,
boolean True if all results are verified successfully
"""
count = {SIGNATURE_VALID: 0,
SIGNATURE_KEY_MISSING: 0,
SIGNATURE_NOT_VALID: 0,
SIGNATURE_NOT_SIGNED: 0,
SIGNATURE_EXPIRED: 0}
result = []
all_verifiable = True
total = len(revids)
with ui.ui_factory.nested_progress_bar() as pb:
for i, (rev_id, verification_result, uid) in enumerate(
repository.verify_revision_signatures(
revids, strategy)):
pb.update("verifying signatures", i, total)
result.append([rev_id, verification_result, uid])
count[verification_result] += 1
if verification_result != SIGNATURE_VALID:
all_verifiable = False
if process_events_callback is not None:
process_events_callback()
return (count, result, all_verifiable)
class DisabledGPGStrategy(object):
"""A GPG Strategy that makes everything fail."""
@staticmethod
def verify_signatures_available():
return True
def __init__(self, ignored):
"""Real strategies take a configuration."""
def sign(self, content, mode):
raise SigningFailed('Signing is disabled.')
def verify(self, signed_data, signature=None):
raise SignatureVerificationFailed('Signature verification is \
disabled.')
def set_acceptable_keys(self, command_line_input):
pass
class LoopbackGPGStrategy(object):
"""A GPG Strategy that acts like 'cat' - data is just passed through.
Used in tests.
"""
@staticmethod
def verify_signatures_available():
return True
def __init__(self, ignored):
"""Real strategies take a configuration."""
def sign(self, content, mode):
return (b"-----BEGIN PSEUDO-SIGNED CONTENT-----\n" + content
+ b"-----END PSEUDO-SIGNED CONTENT-----\n")
def verify(self, signed_data, signature=None):
plain_text = signed_data.replace(
b"-----BEGIN PSEUDO-SIGNED CONTENT-----\n", b"")
plain_text = plain_text.replace(
b"-----END PSEUDO-SIGNED CONTENT-----\n", b"")
return SIGNATURE_VALID, None, plain_text
def set_acceptable_keys(self, command_line_input):
if command_line_input is not None:
patterns = command_line_input.split(",")
self.acceptable_keys = []
for pattern in patterns:
if pattern == "unknown":
pass
else:
self.acceptable_keys.append(pattern)
def _set_gpg_tty():
tty = os.environ.get('TTY')
if tty is not None:
os.environ['GPG_TTY'] = tty
trace.mutter('setting GPG_TTY=%s', tty)
else:
# This is not quite worthy of a warning, because some people
# don't need GPG_TTY to be set. But it is worthy of a big mark
# in brz.log, so that people can debug it if it happens to them
trace.mutter('** Env var TTY empty, cannot set GPG_TTY.'
' Is TTY exported?')
class GPGStrategy(object):
"""GPG Signing and checking facilities."""
acceptable_keys = None
def __init__(self, config_stack):
self._config_stack = config_stack
try:
import gpg
self.context = gpg.Context()
self.context.armor = True
self.context.signers = self._get_signing_keys()
except ImportError:
pass # can't use verify()
def _get_signing_keys(self):
import gpg
keyname = self._config_stack.get('gpg_signing_key')
if keyname == 'default':
# Leave things to gpg
return []
if keyname:
try:
return [self.context.get_key(keyname)]
except gpg.errors.KeyNotFound:
pass
if keyname is None:
# not setting gpg_signing_key at all means we should
# use the user email address
keyname = config.extract_email_address(
self._config_stack.get('email'))
if keyname == 'default':
return []
possible_keys = self.context.keylist(keyname, secret=True)
try:
return [next(possible_keys)]
except StopIteration:
return []
@staticmethod
def verify_signatures_available():
"""
check if this strategy can verify signatures
:return: boolean if this strategy can verify signatures
"""
try:
import gpg # noqa: F401
return True
except ImportError:
return False
def sign(self, content, mode):
try:
import gpg
except ImportError as error:
raise GpgNotInstalled(
'Set create_signatures=no to disable creating signatures.')
if isinstance(content, text_type):
raise errors.BzrBadParameterUnicode('content')
plain_text = gpg.Data(content)
try:
output, result = self.context.sign(
plain_text, mode={
MODE_DETACH: gpg.constants.sig.mode.DETACH,
MODE_CLEAR: gpg.constants.sig.mode.CLEAR,
MODE_NORMAL: gpg.constants.sig.mode.NORMAL,
}[mode])
except gpg.errors.GPGMEError as error:
raise SigningFailed(str(error))
return output
def verify(self, signed_data, signature=None):
"""Check content has a valid signature.
:param signed_data; Signed data
:param signature: optional signature (if detached)
:return: SIGNATURE_VALID or a failed SIGNATURE_ value, key uid if valid, plain text
"""
try:
import gpg
except ImportError as error:
raise GpgNotInstalled(
'Set check_signatures=ignore to disable verifying signatures.')
signed_data = gpg.Data(signed_data)
if signature:
signature = gpg.Data(signature)
try:
plain_output, result = self.context.verify(signed_data, signature)
except gpg.errors.BadSignatures as error:
fingerprint = error.result.signatures[0].fpr
if error.result.signatures[0].summary & gpg.constants.SIGSUM_KEY_EXPIRED:
expires = self.context.get_key(
error.result.signatures[0].fpr).subkeys[0].expires
if expires > error.result.signatures[0].timestamp:
# The expired key was not expired at time of signing.
# test_verify_expired_but_valid()
return SIGNATURE_EXPIRED, fingerprint[-8:], None
else:
# I can't work out how to create a test where the signature
# was expired at the time of signing.
return SIGNATURE_NOT_VALID, None, None
# GPG does not know this key.
# test_verify_unknown_key()
if (error.result.signatures[0].summary &
gpg.constants.SIGSUM_KEY_MISSING):
return SIGNATURE_KEY_MISSING, fingerprint[-8:], None
return SIGNATURE_NOT_VALID, None, None
except gpg.errors.GPGMEError as error:
raise SignatureVerificationFailed(error)
# No result if input is invalid.
# test_verify_invalid()
if len(result.signatures) == 0:
return SIGNATURE_NOT_VALID, None, plain_output
# User has specified a list of acceptable keys, check our result is in
# it. test_verify_unacceptable_key()
fingerprint = result.signatures[0].fpr
if self.acceptable_keys is not None:
if fingerprint not in self.acceptable_keys:
return SIGNATURE_KEY_MISSING, fingerprint[-8:], plain_output
# Yay gpg set the valid bit.
# Can't write a test for this one as you can't set a key to be
# trusted using gpg.
if result.signatures[0].summary & gpg.constants.SIGSUM_VALID:
key = self.context.get_key(fingerprint)
name = key.uids[0].name
if isinstance(name, bytes):
name = name.decode('utf-8')
email = key.uids[0].email
if isinstance(email, bytes):
email = email.decode('utf-8')
return (SIGNATURE_VALID, name + u" <" + email + u">", plain_output)
# Sigsum_red indicates a problem, unfortunatly I have not been able
# to write any tests which actually set this.
if result.signatures[0].summary & gpg.constants.SIGSUM_RED:
return SIGNATURE_NOT_VALID, None, plain_output
# Summary isn't set if sig is valid but key is untrusted but if user
# has explicity set the key as acceptable we can validate it.
if (result.signatures[0].summary == 0 and
self.acceptable_keys is not None):
if fingerprint in self.acceptable_keys:
# test_verify_untrusted_but_accepted()
return SIGNATURE_VALID, None, plain_output
# test_verify_valid_but_untrusted()
if result.signatures[0].summary == 0 and self.acceptable_keys is None:
return SIGNATURE_NOT_VALID, None, plain_output
# Other error types such as revoked keys should (I think) be caught by
# SIGSUM_RED so anything else means something is buggy.
raise SignatureVerificationFailed(
"Unknown GnuPG key verification result")
def set_acceptable_keys(self, command_line_input):
"""Set the acceptable keys for verifying with this GPGStrategy.
:param command_line_input: comma separated list of patterns from
command line
:return: nothing
"""
patterns = None
acceptable_keys_config = self._config_stack.get('acceptable_keys')
if acceptable_keys_config is not None:
patterns = acceptable_keys_config
if command_line_input is not None: # command line overrides config
patterns = command_line_input.split(',')
if patterns:
self.acceptable_keys = []
for pattern in patterns:
result = self.context.keylist(pattern)
found_key = False
for key in result:
found_key = True
self.acceptable_keys.append(key.subkeys[0].fpr)
trace.mutter("Added acceptable key: " + key.subkeys[0].fpr)
if not found_key:
trace.note(gettext(
"No GnuPG key results for pattern: {0}"
).format(pattern))
def valid_commits_message(count):
"""returns message for number of commits"""
return gettext(u"{0} commits with valid signatures").format(
count[SIGNATURE_VALID])
def unknown_key_message(count):
"""returns message for number of commits"""
return ngettext(u"{0} commit with unknown key",
u"{0} commits with unknown keys",
count[SIGNATURE_KEY_MISSING]).format(
count[SIGNATURE_KEY_MISSING])
def commit_not_valid_message(count):
"""returns message for number of commits"""
return ngettext(u"{0} commit not valid",
u"{0} commits not valid",
count[SIGNATURE_NOT_VALID]).format(
count[SIGNATURE_NOT_VALID])
def commit_not_signed_message(count):
"""returns message for number of commits"""
return ngettext(u"{0} commit not signed",
u"{0} commits not signed",
count[SIGNATURE_NOT_SIGNED]).format(
count[SIGNATURE_NOT_SIGNED])
def expired_commit_message(count):
"""returns message for number of commits"""
return ngettext(u"{0} commit with key now expired",
u"{0} commits with key now expired",
count[SIGNATURE_EXPIRED]).format(
count[SIGNATURE_EXPIRED])
def verbose_expired_key_message(result, repo):
"""takes a verify result and returns list of expired key info"""
signers = {}
fingerprint_to_authors = {}
for rev_id, validity, fingerprint in result:
if validity == SIGNATURE_EXPIRED:
revision = repo.get_revision(rev_id)
authors = ', '.join(revision.get_apparent_authors())
signers.setdefault(fingerprint, 0)
signers[fingerprint] += 1
fingerprint_to_authors[fingerprint] = authors
result = []
for fingerprint, number in signers.items():
result.append(
ngettext(u"{0} commit by author {1} with key {2} now expired",
u"{0} commits by author {1} with key {2} now expired",
number).format(
number, fingerprint_to_authors[fingerprint], fingerprint))
return result
def verbose_valid_message(result):
"""takes a verify result and returns list of signed commits strings"""
signers = {}
for rev_id, validity, uid in result:
if validity == SIGNATURE_VALID:
signers.setdefault(uid, 0)
signers[uid] += 1
result = []
for uid, number in signers.items():
result.append(ngettext(u"{0} signed {1} commit",
u"{0} signed {1} commits",
number).format(uid, number))
return result
def verbose_not_valid_message(result, repo):
"""takes a verify result and returns list of not valid commit info"""
signers = {}
for rev_id, validity, empty in result:
if validity == SIGNATURE_NOT_VALID:
revision = repo.get_revision(rev_id)
authors = ', '.join(revision.get_apparent_authors())
signers.setdefault(authors, 0)
signers[authors] += 1
result = []
for authors, number in signers.items():
result.append(ngettext(u"{0} commit by author {1}",
u"{0} commits by author {1}",
number).format(number, authors))
return result
def verbose_not_signed_message(result, repo):
"""takes a verify result and returns list of not signed commit info"""
signers = {}
for rev_id, validity, empty in result:
if validity == SIGNATURE_NOT_SIGNED:
revision = repo.get_revision(rev_id)
authors = ', '.join(revision.get_apparent_authors())
signers.setdefault(authors, 0)
signers[authors] += 1
result = []
for authors, number in signers.items():
result.append(ngettext(u"{0} commit by author {1}",
u"{0} commits by author {1}",
number).format(number, authors))
return result
def verbose_missing_key_message(result):
"""takes a verify result and returns list of missing key info"""
signers = {}
for rev_id, validity, fingerprint in result:
if validity == SIGNATURE_KEY_MISSING:
signers.setdefault(fingerprint, 0)
signers[fingerprint] += 1
result = []
for fingerprint, number in list(signers.items()):
result.append(ngettext(u"Unknown key {0} signed {1} commit",
u"Unknown key {0} signed {1} commits",
number).format(fingerprint, number))
return result