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ansible/lib/ansible/module_utils/basic.py

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# Copyright (c), Michael DeHaan <michael.dehaan@gmail.com>, 2012-2013
# Copyright (c), Toshio Kuratomi <tkuratomi@ansible.com> 2016
# Simplified BSD License (see licenses/simplified_bsd.txt or https://opensource.org/licenses/BSD-2-Clause)
from __future__ import absolute_import, division, print_function
__metaclass__ = type
FILE_ATTRIBUTES = {
'A': 'noatime',
'a': 'append',
'c': 'compressed',
'C': 'nocow',
'd': 'nodump',
'D': 'dirsync',
'e': 'extents',
'E': 'encrypted',
'h': 'blocksize',
'i': 'immutable',
'I': 'indexed',
'j': 'journalled',
'N': 'inline',
's': 'zero',
'S': 'synchronous',
't': 'notail',
'T': 'blockroot',
'u': 'undelete',
'X': 'compressedraw',
'Z': 'compresseddirty',
}
# Ansible modules can be written in any language.
# The functions available here can be used to do many common tasks,
# to simplify development of Python modules.
import __main__
import atexit
import errno
import datetime
import grp
import fcntl
import locale
import os
import pwd
import platform
import re
import select
import shlex
import shutil
import signal
import stat
import subprocess
import sys
import tempfile
import time
import traceback
import types
from collections import deque
from itertools import chain, repeat
try:
import syslog
HAS_SYSLOG = True
except ImportError:
HAS_SYSLOG = False
try:
from systemd import journal
# Makes sure that systemd.journal has method sendv()
# Double check that journal has method sendv (some packages don't)
has_journal = hasattr(journal, 'sendv')
except ImportError:
has_journal = False
HAVE_SELINUX = False
try:
import selinux
HAVE_SELINUX = True
except ImportError:
pass
# Python2 & 3 way to get NoneType
NoneType = type(None)
from ansible.module_utils.compat import selectors
from ._text import to_native, to_bytes, to_text
from ansible.module_utils.common.text.converters import (
jsonify,
container_to_bytes as json_dict_unicode_to_bytes,
container_to_text as json_dict_bytes_to_unicode,
)
from ansible.module_utils.common.text.formatters import (
lenient_lowercase,
bytes_to_human,
human_to_bytes,
SIZE_RANGES,
)
try:
from ansible.module_utils.common._json_compat import json
except ImportError as e:
print('\n{{"msg": "Error: ansible requires the stdlib json: {0}", "failed": true}}'.format(to_native(e)))
sys.exit(1)
AVAILABLE_HASH_ALGORITHMS = dict()
try:
import hashlib
# python 2.7.9+ and 2.7.0+
for attribute in ('available_algorithms', 'algorithms'):
algorithms = getattr(hashlib, attribute, None)
if algorithms:
break
if algorithms is None:
# python 2.5+
algorithms = ('md5', 'sha1', 'sha224', 'sha256', 'sha384', 'sha512')
for algorithm in algorithms:
AVAILABLE_HASH_ALGORITHMS[algorithm] = getattr(hashlib, algorithm)
# we may have been able to import md5 but it could still not be available
try:
hashlib.md5()
except ValueError:
AVAILABLE_HASH_ALGORITHMS.pop('md5', None)
except Exception:
import sha
AVAILABLE_HASH_ALGORITHMS = {'sha1': sha.sha}
try:
import md5
AVAILABLE_HASH_ALGORITHMS['md5'] = md5.md5
except Exception:
pass
from ansible.module_utils.common._collections_compat import (
KeysView,
Mapping, MutableMapping,
Sequence, MutableSequence,
Set, MutableSet,
)
from ansible.module_utils.common.process import get_bin_path
from ansible.module_utils.common.file import (
_PERM_BITS as PERM_BITS,
_EXEC_PERM_BITS as EXEC_PERM_BITS,
_DEFAULT_PERM as DEFAULT_PERM,
is_executable,
format_attributes,
get_flags_from_attributes,
)
from ansible.module_utils.common.sys_info import (
get_distribution,
get_distribution_version,
get_platform_subclass,
)
from ansible.module_utils.pycompat24 import get_exception, literal_eval
from ansible.module_utils.common.parameters import (
handle_aliases,
list_deprecations,
list_no_log_values,
PASS_VARS,
PASS_BOOLS,
)
from ansible.module_utils.six import (
PY2,
PY3,
b,
binary_type,
integer_types,
iteritems,
string_types,
text_type,
)
from ansible.module_utils.six.moves import map, reduce, shlex_quote
from ansible.module_utils.common.validation import (
check_missing_parameters,
check_mutually_exclusive,
check_required_arguments,
check_required_by,
check_required_if,
check_required_one_of,
check_required_together,
count_terms,
check_type_bool,
check_type_bits,
check_type_bytes,
check_type_float,
check_type_int,
check_type_jsonarg,
check_type_list,
check_type_dict,
check_type_path,
check_type_raw,
check_type_str,
safe_eval,
)
from ansible.module_utils.common._utils import get_all_subclasses as _get_all_subclasses
from ansible.module_utils.parsing.convert_bool import BOOLEANS, BOOLEANS_FALSE, BOOLEANS_TRUE, boolean
from ansible.module_utils.common.warnings import (
deprecate,
get_deprecation_messages,
get_warning_messages,
warn,
)
# Note: When getting Sequence from collections, it matches with strings. If
# this matters, make sure to check for strings before checking for sequencetype
SEQUENCETYPE = frozenset, KeysView, Sequence
PASSWORD_MATCH = re.compile(r'^(?:.+[-_\s])?pass(?:[-_\s]?(?:word|phrase|wrd|wd)?)(?:[-_\s].+)?$', re.I)
imap = map
try:
# Python 2
unicode
except NameError:
# Python 3
unicode = text_type
try:
# Python 2
basestring
except NameError:
# Python 3
basestring = string_types
_literal_eval = literal_eval
# End of deprecated names
# Internal global holding passed in params. This is consulted in case
# multiple AnsibleModules are created. Otherwise each AnsibleModule would
# attempt to read from stdin. Other code should not use this directly as it
# is an internal implementation detail
_ANSIBLE_ARGS = None
FILE_COMMON_ARGUMENTS = dict(
# These are things we want. About setting metadata (mode, ownership, permissions in general) on
# created files (these are used by set_fs_attributes_if_different and included in
# load_file_common_arguments)
mode=dict(type='raw'),
owner=dict(type='str'),
group=dict(type='str'),
seuser=dict(type='str'),
serole=dict(type='str'),
selevel=dict(type='str'),
setype=dict(type='str'),
attributes=dict(type='str', aliases=['attr']),
unsafe_writes=dict(type='bool', default=False), # should be available to any module using atomic_move
)
PASSWD_ARG_RE = re.compile(r'^[-]{0,2}pass[-]?(word|wd)?')
# Used for parsing symbolic file perms
MODE_OPERATOR_RE = re.compile(r'[+=-]')
USERS_RE = re.compile(r'[^ugo]')
PERMS_RE = re.compile(r'[^rwxXstugo]')
# Used for determining if the system is running a new enough python version
# and should only restrict on our documented minimum versions
_PY3_MIN = sys.version_info[:2] >= (3, 5)
_PY2_MIN = (2, 6) <= sys.version_info[:2] < (3,)
_PY_MIN = _PY3_MIN or _PY2_MIN
if not _PY_MIN:
print(
'\n{"failed": true, '
'"msg": "Ansible requires a minimum of Python2 version 2.6 or Python3 version 3.5. Current version: %s"}' % ''.join(sys.version.splitlines())
)
sys.exit(1)
#
# Deprecated functions
#
def get_platform():
'''
**Deprecated** Use :py:func:`platform.system` directly.
:returns: Name of the platform the module is running on in a native string
Returns a native string that labels the platform ("Linux", "Solaris", etc). Currently, this is
the result of calling :py:func:`platform.system`.
'''
return platform.system()
# End deprecated functions
#
# Compat shims
#
def load_platform_subclass(cls, *args, **kwargs):
"""**Deprecated**: Use ansible.module_utils.common.sys_info.get_platform_subclass instead"""
platform_cls = get_platform_subclass(cls)
return super(cls, platform_cls).__new__(platform_cls)
def get_all_subclasses(cls):
"""**Deprecated**: Use ansible.module_utils.common._utils.get_all_subclasses instead"""
return list(_get_all_subclasses(cls))
# End compat shims
def _remove_values_conditions(value, no_log_strings, deferred_removals):
"""
Helper function for :meth:`remove_values`.
:arg value: The value to check for strings that need to be stripped
:arg no_log_strings: set of strings which must be stripped out of any values
:arg deferred_removals: List which holds information about nested
containers that have to be iterated for removals. It is passed into
this function so that more entries can be added to it if value is
a container type. The format of each entry is a 2-tuple where the first
element is the ``value`` parameter and the second value is a new
container to copy the elements of ``value`` into once iterated.
:returns: if ``value`` is a scalar, returns ``value`` with two exceptions:
1. :class:`~datetime.datetime` objects which are changed into a string representation.
2. objects which are in no_log_strings are replaced with a placeholder
so that no sensitive data is leaked.
If ``value`` is a container type, returns a new empty container.
``deferred_removals`` is added to as a side-effect of this function.
.. warning:: It is up to the caller to make sure the order in which value
is passed in is correct. For instance, higher level containers need
to be passed in before lower level containers. For example, given
``{'level1': {'level2': 'level3': [True]} }`` first pass in the
dictionary for ``level1``, then the dict for ``level2``, and finally
the list for ``level3``.
"""
if isinstance(value, (text_type, binary_type)):
# Need native str type
native_str_value = value
if isinstance(value, text_type):
value_is_text = True
if PY2:
native_str_value = to_bytes(value, errors='surrogate_or_strict')
elif isinstance(value, binary_type):
value_is_text = False
if PY3:
native_str_value = to_text(value, errors='surrogate_or_strict')
if native_str_value in no_log_strings:
return 'VALUE_SPECIFIED_IN_NO_LOG_PARAMETER'
for omit_me in no_log_strings:
native_str_value = native_str_value.replace(omit_me, '*' * 8)
if value_is_text and isinstance(native_str_value, binary_type):
value = to_text(native_str_value, encoding='utf-8', errors='surrogate_then_replace')
elif not value_is_text and isinstance(native_str_value, text_type):
value = to_bytes(native_str_value, encoding='utf-8', errors='surrogate_then_replace')
else:
value = native_str_value
elif isinstance(value, Sequence):
if isinstance(value, MutableSequence):
new_value = type(value)()
else:
new_value = [] # Need a mutable value
deferred_removals.append((value, new_value))
value = new_value
elif isinstance(value, Set):
if isinstance(value, MutableSet):
new_value = type(value)()
else:
new_value = set() # Need a mutable value
deferred_removals.append((value, new_value))
value = new_value
elif isinstance(value, Mapping):
if isinstance(value, MutableMapping):
new_value = type(value)()
else:
new_value = {} # Need a mutable value
deferred_removals.append((value, new_value))
value = new_value
elif isinstance(value, tuple(chain(integer_types, (float, bool, NoneType)))):
stringy_value = to_native(value, encoding='utf-8', errors='surrogate_or_strict')
if stringy_value in no_log_strings:
return 'VALUE_SPECIFIED_IN_NO_LOG_PARAMETER'
for omit_me in no_log_strings:
if omit_me in stringy_value:
return 'VALUE_SPECIFIED_IN_NO_LOG_PARAMETER'
elif isinstance(value, datetime.datetime):
value = value.isoformat()
else:
raise TypeError('Value of unknown type: %s, %s' % (type(value), value))
return value
def remove_values(value, no_log_strings):
""" Remove strings in no_log_strings from value. If value is a container
type, then remove a lot more"""
deferred_removals = deque()
no_log_strings = [to_native(s, errors='surrogate_or_strict') for s in no_log_strings]
new_value = _remove_values_conditions(value, no_log_strings, deferred_removals)
while deferred_removals:
old_data, new_data = deferred_removals.popleft()
if isinstance(new_data, Mapping):
for old_key, old_elem in old_data.items():
new_key = _remove_values_conditions(old_key, no_log_strings, deferred_removals)
new_elem = _remove_values_conditions(old_elem, no_log_strings, deferred_removals)
new_data[new_key] = new_elem
else:
for elem in old_data:
new_elem = _remove_values_conditions(elem, no_log_strings, deferred_removals)
if isinstance(new_data, MutableSequence):
new_data.append(new_elem)
elif isinstance(new_data, MutableSet):
new_data.add(new_elem)
else:
raise TypeError('Unknown container type encountered when removing private values from output')
return new_value
def heuristic_log_sanitize(data, no_log_values=None):
''' Remove strings that look like passwords from log messages '''
# Currently filters:
# user:pass@foo/whatever and http://username:pass@wherever/foo
# This code has false positives and consumes parts of logs that are
# not passwds
# begin: start of a passwd containing string
# end: end of a passwd containing string
# sep: char between user and passwd
# prev_begin: where in the overall string to start a search for
# a passwd
# sep_search_end: where in the string to end a search for the sep
data = to_native(data)
output = []
begin = len(data)
prev_begin = begin
sep = 1
while sep:
# Find the potential end of a passwd
try:
end = data.rindex('@', 0, begin)
except ValueError:
# No passwd in the rest of the data
output.insert(0, data[0:begin])
break
# Search for the beginning of a passwd
sep = None
sep_search_end = end
while not sep:
# URL-style username+password
try:
begin = data.rindex('://', 0, sep_search_end)
except ValueError:
# No url style in the data, check for ssh style in the
# rest of the string
begin = 0
# Search for separator
try:
sep = data.index(':', begin + 3, end)
except ValueError:
# No separator; choices:
if begin == 0:
# Searched the whole string so there's no password
# here. Return the remaining data
output.insert(0, data[0:begin])
break
# Search for a different beginning of the password field.
sep_search_end = begin
continue
if sep:
# Password was found; remove it.
output.insert(0, data[end:prev_begin])
output.insert(0, '********')
output.insert(0, data[begin:sep + 1])
prev_begin = begin
output = ''.join(output)
if no_log_values:
output = remove_values(output, no_log_values)
return output
def _load_params():
''' read the modules parameters and store them globally.
This function may be needed for certain very dynamic custom modules which
want to process the parameters that are being handed the module. Since
this is so closely tied to the implementation of modules we cannot
guarantee API stability for it (it may change between versions) however we
will try not to break it gratuitously. It is certainly more future-proof
to call this function and consume its outputs than to implement the logic
inside it as a copy in your own code.
'''
global _ANSIBLE_ARGS
if _ANSIBLE_ARGS is not None:
buffer = _ANSIBLE_ARGS
else:
# debug overrides to read args from file or cmdline
# Avoid tracebacks when locale is non-utf8
# We control the args and we pass them as utf8
if len(sys.argv) > 1:
if os.path.isfile(sys.argv[1]):
fd = open(sys.argv[1], 'rb')
buffer = fd.read()
fd.close()
else:
buffer = sys.argv[1]
if PY3:
buffer = buffer.encode('utf-8', errors='surrogateescape')
# default case, read from stdin
else:
if PY2:
buffer = sys.stdin.read()
else:
buffer = sys.stdin.buffer.read()
_ANSIBLE_ARGS = buffer
try:
params = json.loads(buffer.decode('utf-8'))
except ValueError:
# This helper used too early for fail_json to work.
print('\n{"msg": "Error: Module unable to decode valid JSON on stdin. Unable to figure out what parameters were passed", "failed": true}')
sys.exit(1)
if PY2:
params = json_dict_unicode_to_bytes(params)
try:
return params['ANSIBLE_MODULE_ARGS']
except KeyError:
# This helper does not have access to fail_json so we have to print
# json output on our own.
print('\n{"msg": "Error: Module unable to locate ANSIBLE_MODULE_ARGS in json data from stdin. Unable to figure out what parameters were passed", '
'"failed": true}')
sys.exit(1)
def env_fallback(*args, **kwargs):
''' Load value from environment '''
for arg in args:
if arg in os.environ:
return os.environ[arg]
raise AnsibleFallbackNotFound
def missing_required_lib(library, reason=None, url=None):
hostname = platform.node()
msg = "Failed to import the required Python library (%s) on %s's Python %s." % (library, hostname, sys.executable)
if reason:
msg += " This is required %s." % reason
if url:
msg += " See %s for more info." % url
msg += (" Please read the module documentation and install it in the appropriate location."
" If the required library is installed, but Ansible is using the wrong Python interpreter,"
" please consult the documentation on ansible_python_interpreter")
return msg
class AnsibleFallbackNotFound(Exception):
pass
class AnsibleModule(object):
def __init__(self, argument_spec, bypass_checks=False, no_log=False,
mutually_exclusive=None, required_together=None,
required_one_of=None, add_file_common_args=False,
supports_check_mode=False, required_if=None, required_by=None):
'''
Common code for quickly building an ansible module in Python
(although you can write modules with anything that can return JSON).
See :ref:`developing_modules_general` for a general introduction
and :ref:`developing_program_flow_modules` for more detailed explanation.
'''
self._name = os.path.basename(__file__) # initialize name until we can parse from options
self.argument_spec = argument_spec
self.supports_check_mode = supports_check_mode
self.check_mode = False
self.bypass_checks = bypass_checks
self.no_log = no_log
self.mutually_exclusive = mutually_exclusive
self.required_together = required_together
self.required_one_of = required_one_of
self.required_if = required_if
self.required_by = required_by
self.cleanup_files = []
self._debug = False
self._diff = False
self._socket_path = None
self._shell = None
self._verbosity = 0
# May be used to set modifications to the environment for any
# run_command invocation
self.run_command_environ_update = {}
self._clean = {}
self._string_conversion_action = ''
self.aliases = {}
self._legal_inputs = []
self._options_context = list()
self._tmpdir = None
if add_file_common_args:
for k, v in FILE_COMMON_ARGUMENTS.items():
if k not in self.argument_spec:
self.argument_spec[k] = v
self._load_params()
self._set_fallbacks()
# append to legal_inputs and then possibly check against them
try:
self.aliases = self._handle_aliases()
except (ValueError, TypeError) as e:
# Use exceptions here because it isn't safe to call fail_json until no_log is processed
print('\n{"failed": true, "msg": "Module alias error: %s"}' % to_native(e))
sys.exit(1)
# Save parameter values that should never be logged
self.no_log_values = set()
self._handle_no_log_values()
# check the locale as set by the current environment, and reset to
# a known valid (LANG=C) if it's an invalid/unavailable locale
self._check_locale()
self._check_arguments()
# check exclusive early
if not bypass_checks:
self._check_mutually_exclusive(mutually_exclusive)
self._set_defaults(pre=True)
self._CHECK_ARGUMENT_TYPES_DISPATCHER = {
'str': self._check_type_str,
'list': self._check_type_list,
'dict': self._check_type_dict,
'bool': self._check_type_bool,
'int': self._check_type_int,
'float': self._check_type_float,
'path': self._check_type_path,
'raw': self._check_type_raw,
'jsonarg': self._check_type_jsonarg,
'json': self._check_type_jsonarg,
'bytes': self._check_type_bytes,
'bits': self._check_type_bits,
}
if not bypass_checks:
self._check_required_arguments()
self._check_argument_types()
self._check_argument_values()
self._check_required_together(required_together)
self._check_required_one_of(required_one_of)
self._check_required_if(required_if)
self._check_required_by(required_by)
self._set_defaults(pre=False)
# deal with options sub-spec
self._handle_options()
if not self.no_log:
self._log_invocation()
# finally, make sure we're in a sane working dir
self._set_cwd()
@property
def tmpdir(self):
# if _ansible_tmpdir was not set and we have a remote_tmp,
# the module needs to create it and clean it up once finished.
# otherwise we create our own module tmp dir from the system defaults
if self._tmpdir is None:
basedir = None
if self._remote_tmp is not None:
basedir = os.path.expanduser(os.path.expandvars(self._remote_tmp))
if basedir is not None and not os.path.exists(basedir):
try:
os.makedirs(basedir, mode=0o700)
except (OSError, IOError) as e:
self.warn("Unable to use %s as temporary directory, "
"failing back to system: %s" % (basedir, to_native(e)))
basedir = None
else:
self.warn("Module remote_tmp %s did not exist and was "
"created with a mode of 0700, this may cause"
" issues when running as another user. To "
"avoid this, create the remote_tmp dir with "
"the correct permissions manually" % basedir)
basefile = "ansible-moduletmp-%s-" % time.time()
try:
tmpdir = tempfile.mkdtemp(prefix=basefile, dir=basedir)
except (OSError, IOError) as e:
self.fail_json(
msg="Failed to create remote module tmp path at dir %s "
"with prefix %s: %s" % (basedir, basefile, to_native(e))
)
if not self._keep_remote_files:
atexit.register(shutil.rmtree, tmpdir)
self._tmpdir = tmpdir
return self._tmpdir
def warn(self, warning):
warn(warning)
self.log('[WARNING] %s' % warning)
def deprecate(self, msg, version=None, date=None, collection_name=None):
if version is not None and date is not None:
raise AssertionError("implementation error -- version and date must not both be set")
deprecate(msg, version=version, date=date, collection_name=collection_name)
# For compatibility, we accept that neither version nor date is set,
# and treat that the same as if version would haven been set
if date is not None:
self.log('[DEPRECATION WARNING] %s %s' % (msg, date))
else:
self.log('[DEPRECATION WARNING] %s %s' % (msg, version))
def load_file_common_arguments(self, params, path=None):
'''
many modules deal with files, this encapsulates common
options that the file module accepts such that it is directly
available to all modules and they can share code.
Allows to overwrite the path/dest module argument by providing path.
'''
if path is None:
path = params.get('path', params.get('dest', None))
if path is None:
return {}
else:
path = os.path.expanduser(os.path.expandvars(path))
b_path = to_bytes(path, errors='surrogate_or_strict')
# if the path is a symlink, and we're following links, get
# the target of the link instead for testing
if params.get('follow', False) and os.path.islink(b_path):
b_path = os.path.realpath(b_path)
path = to_native(b_path)
mode = params.get('mode', None)
owner = params.get('owner', None)
group = params.get('group', None)
# selinux related options
seuser = params.get('seuser', None)
serole = params.get('serole', None)
setype = params.get('setype', None)
selevel = params.get('selevel', None)
secontext = [seuser, serole, setype]
if self.selinux_mls_enabled():
secontext.append(selevel)
default_secontext = self.selinux_default_context(path)
for i in range(len(default_secontext)):
if i is not None and secontext[i] == '_default':
secontext[i] = default_secontext[i]
attributes = params.get('attributes', None)
return dict(
path=path, mode=mode, owner=owner, group=group,
seuser=seuser, serole=serole, setype=setype,
selevel=selevel, secontext=secontext, attributes=attributes,
)
# Detect whether using selinux that is MLS-aware.
# While this means you can set the level/range with
# selinux.lsetfilecon(), it may or may not mean that you
# will get the selevel as part of the context returned
# by selinux.lgetfilecon().
def selinux_mls_enabled(self):
if not HAVE_SELINUX:
return False
if selinux.is_selinux_mls_enabled() == 1:
return True
else:
return False
def selinux_enabled(self):
if not HAVE_SELINUX:
seenabled = self.get_bin_path('selinuxenabled')
if seenabled is not None:
(rc, out, err) = self.run_command(seenabled)
if rc == 0:
self.fail_json(msg="Aborting, target uses selinux but python bindings (libselinux-python) aren't installed!")
return False
if selinux.is_selinux_enabled() == 1:
return True
else:
return False
# Determine whether we need a placeholder for selevel/mls
def selinux_initial_context(self):
context = [None, None, None]
if self.selinux_mls_enabled():
context.append(None)
return context
# If selinux fails to find a default, return an array of None
def selinux_default_context(self, path, mode=0):
context = self.selinux_initial_context()
if not HAVE_SELINUX or not self.selinux_enabled():
return context
try:
ret = selinux.matchpathcon(to_native(path, errors='surrogate_or_strict'), mode)
except OSError:
return context
if ret[0] == -1:
return context
# Limit split to 4 because the selevel, the last in the list,
# may contain ':' characters
context = ret[1].split(':', 3)
return context
def selinux_context(self, path):
context = self.selinux_initial_context()
if not HAVE_SELINUX or not self.selinux_enabled():
return context
try:
ret = selinux.lgetfilecon_raw(to_native(path, errors='surrogate_or_strict'))
except OSError as e:
if e.errno == errno.ENOENT:
self.fail_json(path=path, msg='path %s does not exist' % path)
else:
self.fail_json(path=path, msg='failed to retrieve selinux context')
if ret[0] == -1:
return context
# Limit split to 4 because the selevel, the last in the list,
# may contain ':' characters
context = ret[1].split(':', 3)
return context
def user_and_group(self, path, expand=True):
b_path = to_bytes(path, errors='surrogate_or_strict')
if expand:
b_path = os.path.expanduser(os.path.expandvars(b_path))
st = os.lstat(b_path)
uid = st.st_uid
gid = st.st_gid
return (uid, gid)
def find_mount_point(self, path):
path_is_bytes = False
if isinstance(path, binary_type):
path_is_bytes = True
b_path = os.path.realpath(to_bytes(os.path.expanduser(os.path.expandvars(path)), errors='surrogate_or_strict'))
while not os.path.ismount(b_path):
b_path = os.path.dirname(b_path)
if path_is_bytes:
return b_path
return to_text(b_path, errors='surrogate_or_strict')
def is_special_selinux_path(self, path):
"""
Returns a tuple containing (True, selinux_context) if the given path is on a
NFS or other 'special' fs mount point, otherwise the return will be (False, None).
"""
try:
f = open('/proc/mounts', 'r')
mount_data = f.readlines()
f.close()
except Exception:
return (False, None)
path_mount_point = self.find_mount_point(path)
for line in mount_data:
(device, mount_point, fstype, options, rest) = line.split(' ', 4)
if path_mount_point == mount_point:
for fs in self._selinux_special_fs:
if fs in fstype:
special_context = self.selinux_context(path_mount_point)
return (True, special_context)
return (False, None)
def set_default_selinux_context(self, path, changed):
if not HAVE_SELINUX or not self.selinux_enabled():
return changed
context = self.selinux_default_context(path)
return self.set_context_if_different(path, context, False)
def set_context_if_different(self, path, context, changed, diff=None):
if not HAVE_SELINUX or not self.selinux_enabled():
return changed
if self.check_file_absent_if_check_mode(path):
return True
cur_context = self.selinux_context(path)
new_context = list(cur_context)
# Iterate over the current context instead of the
# argument context, which may have selevel.
(is_special_se, sp_context) = self.is_special_selinux_path(path)
if is_special_se:
new_context = sp_context
else:
for i in range(len(cur_context)):
if len(context) > i:
if context[i] is not None and context[i] != cur_context[i]:
new_context[i] = context[i]
elif context[i] is None:
new_context[i] = cur_context[i]
if cur_context != new_context:
if diff is not None:
if 'before' not in diff:
diff['before'] = {}
diff['before']['secontext'] = cur_context
if 'after' not in diff:
diff['after'] = {}
diff['after']['secontext'] = new_context
try:
if self.check_mode:
return True
rc = selinux.lsetfilecon(to_native(path), ':'.join(new_context))
except OSError as e:
self.fail_json(path=path, msg='invalid selinux context: %s' % to_native(e),
new_context=new_context, cur_context=cur_context, input_was=context)
if rc != 0:
self.fail_json(path=path, msg='set selinux context failed')
changed = True
return changed
def set_owner_if_different(self, path, owner, changed, diff=None, expand=True):
if owner is None:
return changed
b_path = to_bytes(path, errors='surrogate_or_strict')
if expand:
b_path = os.path.expanduser(os.path.expandvars(b_path))
if self.check_file_absent_if_check_mode(b_path):
return True
orig_uid, orig_gid = self.user_and_group(b_path, expand)
try:
uid = int(owner)
except ValueError:
try:
uid = pwd.getpwnam(owner).pw_uid
except KeyError:
path = to_text(b_path)
self.fail_json(path=path, msg='chown failed: failed to look up user %s' % owner)
if orig_uid != uid:
if diff is not None:
if 'before' not in diff:
diff['before'] = {}
diff['before']['owner'] = orig_uid
if 'after' not in diff:
diff['after'] = {}
diff['after']['owner'] = uid
if self.check_mode:
return True
try:
os.lchown(b_path, uid, -1)
except (IOError, OSError) as e:
path = to_text(b_path)
self.fail_json(path=path, msg='chown failed: %s' % (to_text(e)))
changed = True
return changed
def set_group_if_different(self, path, group, changed, diff=None, expand=True):
if group is None:
return changed
b_path = to_bytes(path, errors='surrogate_or_strict')
if expand:
b_path = os.path.expanduser(os.path.expandvars(b_path))
if self.check_file_absent_if_check_mode(b_path):
return True
orig_uid, orig_gid = self.user_and_group(b_path, expand)
try:
gid = int(group)
except ValueError:
try:
gid = grp.getgrnam(group).gr_gid
except KeyError:
path = to_text(b_path)
self.fail_json(path=path, msg='chgrp failed: failed to look up group %s' % group)
if orig_gid != gid:
if diff is not None:
if 'before' not in diff:
diff['before'] = {}
diff['before']['group'] = orig_gid
if 'after' not in diff:
diff['after'] = {}
diff['after']['group'] = gid
if self.check_mode:
return True
try:
os.lchown(b_path, -1, gid)
except OSError:
path = to_text(b_path)
self.fail_json(path=path, msg='chgrp failed')
changed = True
return changed
def set_mode_if_different(self, path, mode, changed, diff=None, expand=True):
if mode is None:
return changed
b_path = to_bytes(path, errors='surrogate_or_strict')
if expand:
b_path = os.path.expanduser(os.path.expandvars(b_path))
path_stat = os.lstat(b_path)
if self.check_file_absent_if_check_mode(b_path):
return True
if not isinstance(mode, int):
try:
mode = int(mode, 8)
except Exception:
try:
mode = self._symbolic_mode_to_octal(path_stat, mode)
except Exception as e:
path = to_text(b_path)
self.fail_json(path=path,
msg="mode must be in octal or symbolic form",
details=to_native(e))
if mode != stat.S_IMODE(mode):
# prevent mode from having extra info orbeing invalid long number
path = to_text(b_path)
self.fail_json(path=path, msg="Invalid mode supplied, only permission info is allowed", details=mode)
prev_mode = stat.S_IMODE(path_stat.st_mode)
if prev_mode != mode:
if diff is not None:
if 'before' not in diff:
diff['before'] = {}
diff['before']['mode'] = '0%03o' % prev_mode
if 'after' not in diff:
diff['after'] = {}
diff['after']['mode'] = '0%03o' % mode
if self.check_mode:
return True
# FIXME: comparison against string above will cause this to be executed
# every time
try:
if hasattr(os, 'lchmod'):
os.lchmod(b_path, mode)
else:
if not os.path.islink(b_path):
os.chmod(b_path, mode)
else:
# Attempt to set the perms of the symlink but be
# careful not to change the perms of the underlying
# file while trying
underlying_stat = os.stat(b_path)
os.chmod(b_path, mode)
new_underlying_stat = os.stat(b_path)
if underlying_stat.st_mode != new_underlying_stat.st_mode:
os.chmod(b_path, stat.S_IMODE(underlying_stat.st_mode))
except OSError as e:
if os.path.islink(b_path) and e.errno in (errno.EPERM, errno.EROFS): # Can't set mode on symbolic links
pass
elif e.errno in (errno.ENOENT, errno.ELOOP): # Can't set mode on broken symbolic links
pass
else:
raise
except Exception as e:
path = to_text(b_path)
self.fail_json(path=path, msg='chmod failed', details=to_native(e),
exception=traceback.format_exc())
path_stat = os.lstat(b_path)
new_mode = stat.S_IMODE(path_stat.st_mode)
if new_mode != prev_mode:
changed = True
return changed
def set_attributes_if_different(self, path, attributes, changed, diff=None, expand=True):
if attributes is None:
return changed
b_path = to_bytes(path, errors='surrogate_or_strict')
if expand:
b_path = os.path.expanduser(os.path.expandvars(b_path))
if self.check_file_absent_if_check_mode(b_path):
return True
existing = self.get_file_attributes(b_path)
attr_mod = '='
if attributes.startswith(('-', '+')):
attr_mod = attributes[0]
attributes = attributes[1:]
if existing.get('attr_flags', '') != attributes or attr_mod == '-':
attrcmd = self.get_bin_path('chattr')
if attrcmd:
attrcmd = [attrcmd, '%s%s' % (attr_mod, attributes), b_path]
changed = True
if diff is not None:
if 'before' not in diff:
diff['before'] = {}
diff['before']['attributes'] = existing.get('attr_flags')
if 'after' not in diff:
diff['after'] = {}
diff['after']['attributes'] = '%s%s' % (attr_mod, attributes)
if not self.check_mode:
try:
rc, out, err = self.run_command(attrcmd)
if rc != 0 or err:
raise Exception("Error while setting attributes: %s" % (out + err))
except Exception as e:
self.fail_json(path=to_text(b_path), msg='chattr failed',
details=to_native(e), exception=traceback.format_exc())
return changed
def get_file_attributes(self, path):
output = {}
attrcmd = self.get_bin_path('lsattr', False)
if attrcmd:
attrcmd = [attrcmd, '-vd', path]
try:
rc, out, err = self.run_command(attrcmd)
if rc == 0:
res = out.split()
output['attr_flags'] = res[1].replace('-', '').strip()
output['version'] = res[0].strip()
output['attributes'] = format_attributes(output['attr_flags'])
except Exception:
pass
return output
@classmethod
def _symbolic_mode_to_octal(cls, path_stat, symbolic_mode):
"""
This enables symbolic chmod string parsing as stated in the chmod man-page
This includes things like: "u=rw-x+X,g=r-x+X,o=r-x+X"
"""
new_mode = stat.S_IMODE(path_stat.st_mode)
# Now parse all symbolic modes
for mode in symbolic_mode.split(','):
# Per single mode. This always contains a '+', '-' or '='
# Split it on that
permlist = MODE_OPERATOR_RE.split(mode)
# And find all the operators
opers = MODE_OPERATOR_RE.findall(mode)
# The user(s) where it's all about is the first element in the
# 'permlist' list. Take that and remove it from the list.
# An empty user or 'a' means 'all'.
users = permlist.pop(0)
use_umask = (users == '')
if users == 'a' or users == '':
users = 'ugo'
# Check if there are illegal characters in the user list
# They can end up in 'users' because they are not split
if USERS_RE.match(users):
raise ValueError("bad symbolic permission for mode: %s" % mode)
# Now we have two list of equal length, one contains the requested
# permissions and one with the corresponding operators.
for idx, perms in enumerate(permlist):
# Check if there are illegal characters in the permissions
if PERMS_RE.match(perms):
raise ValueError("bad symbolic permission for mode: %s" % mode)
for user in users:
mode_to_apply = cls._get_octal_mode_from_symbolic_perms(path_stat, user, perms, use_umask)
new_mode = cls._apply_operation_to_mode(user, opers[idx], mode_to_apply, new_mode)
return new_mode
@staticmethod
def _apply_operation_to_mode(user, operator, mode_to_apply, current_mode):
if operator == '=':
if user == 'u':
mask = stat.S_IRWXU | stat.S_ISUID
elif user == 'g':
mask = stat.S_IRWXG | stat.S_ISGID
elif user == 'o':
mask = stat.S_IRWXO | stat.S_ISVTX
# mask out u, g, or o permissions from current_mode and apply new permissions
inverse_mask = mask ^ PERM_BITS
new_mode = (current_mode & inverse_mask) | mode_to_apply
elif operator == '+':
new_mode = current_mode | mode_to_apply
elif operator == '-':
new_mode = current_mode - (current_mode & mode_to_apply)
return new_mode
@staticmethod
def _get_octal_mode_from_symbolic_perms(path_stat, user, perms, use_umask):
prev_mode = stat.S_IMODE(path_stat.st_mode)
is_directory = stat.S_ISDIR(path_stat.st_mode)
has_x_permissions = (prev_mode & EXEC_PERM_BITS) > 0
apply_X_permission = is_directory or has_x_permissions
# Get the umask, if the 'user' part is empty, the effect is as if (a) were
# given, but bits that are set in the umask are not affected.
# We also need the "reversed umask" for masking
umask = os.umask(0)
os.umask(umask)
rev_umask = umask ^ PERM_BITS
# Permission bits constants documented at:
# http://docs.python.org/2/library/stat.html#stat.S_ISUID
if apply_X_permission:
X_perms = {
'u': {'X': stat.S_IXUSR},
'g': {'X': stat.S_IXGRP},
'o': {'X': stat.S_IXOTH},
}
else:
X_perms = {
'u': {'X': 0},
'g': {'X': 0},
'o': {'X': 0},
}
user_perms_to_modes = {
'u': {
'r': rev_umask & stat.S_IRUSR if use_umask else stat.S_IRUSR,
'w': rev_umask & stat.S_IWUSR if use_umask else stat.S_IWUSR,
'x': rev_umask & stat.S_IXUSR if use_umask else stat.S_IXUSR,
's': stat.S_ISUID,
't': 0,
'u': prev_mode & stat.S_IRWXU,
'g': (prev_mode & stat.S_IRWXG) << 3,
'o': (prev_mode & stat.S_IRWXO) << 6},
'g': {
'r': rev_umask & stat.S_IRGRP if use_umask else stat.S_IRGRP,
'w': rev_umask & stat.S_IWGRP if use_umask else stat.S_IWGRP,
'x': rev_umask & stat.S_IXGRP if use_umask else stat.S_IXGRP,
's': stat.S_ISGID,
't': 0,
'u': (prev_mode & stat.S_IRWXU) >> 3,
'g': prev_mode & stat.S_IRWXG,
'o': (prev_mode & stat.S_IRWXO) << 3},
'o': {
'r': rev_umask & stat.S_IROTH if use_umask else stat.S_IROTH,
'w': rev_umask & stat.S_IWOTH if use_umask else stat.S_IWOTH,
'x': rev_umask & stat.S_IXOTH if use_umask else stat.S_IXOTH,
's': 0,
't': stat.S_ISVTX,
'u': (prev_mode & stat.S_IRWXU) >> 6,
'g': (prev_mode & stat.S_IRWXG) >> 3,
'o': prev_mode & stat.S_IRWXO},
}
# Insert X_perms into user_perms_to_modes
for key, value in X_perms.items():
user_perms_to_modes[key].update(value)
def or_reduce(mode, perm):
return mode | user_perms_to_modes[user][perm]
return reduce(or_reduce, perms, 0)
def set_fs_attributes_if_different(self, file_args, changed, diff=None, expand=True):
# set modes owners and context as needed
changed = self.set_context_if_different(
file_args['path'], file_args['secontext'], changed, diff
)
changed = self.set_owner_if_different(
file_args['path'], file_args['owner'], changed, diff, expand
)
changed = self.set_group_if_different(
file_args['path'], file_args['group'], changed, diff, expand
)
changed = self.set_mode_if_different(
file_args['path'], file_args['mode'], changed, diff, expand
)
changed = self.set_attributes_if_different(
file_args['path'], file_args['attributes'], changed, diff, expand
)
return changed
def check_file_absent_if_check_mode(self, file_path):
return self.check_mode and not os.path.exists(file_path)
def set_directory_attributes_if_different(self, file_args, changed, diff=None, expand=True):
return self.set_fs_attributes_if_different(file_args, changed, diff, expand)
def set_file_attributes_if_different(self, file_args, changed, diff=None, expand=True):
return self.set_fs_attributes_if_different(file_args, changed, diff, expand)
def add_path_info(self, kwargs):
'''
for results that are files, supplement the info about the file
in the return path with stats about the file path.
'''
path = kwargs.get('path', kwargs.get('dest', None))
if path is None:
return kwargs
b_path = to_bytes(path, errors='surrogate_or_strict')
if os.path.exists(b_path):
(uid, gid) = self.user_and_group(path)
kwargs['uid'] = uid
kwargs['gid'] = gid
try:
user = pwd.getpwuid(uid)[0]
except KeyError:
user = str(uid)
try:
group = grp.getgrgid(gid)[0]
except KeyError:
group = str(gid)
kwargs['owner'] = user
kwargs['group'] = group
st = os.lstat(b_path)
kwargs['mode'] = '0%03o' % stat.S_IMODE(st[stat.ST_MODE])
# secontext not yet supported
if os.path.islink(b_path):
kwargs['state'] = 'link'
elif os.path.isdir(b_path):
kwargs['state'] = 'directory'
elif os.stat(b_path).st_nlink > 1:
kwargs['state'] = 'hard'
else:
kwargs['state'] = 'file'
if HAVE_SELINUX and self.selinux_enabled():
kwargs['secontext'] = ':'.join(self.selinux_context(path))
kwargs['size'] = st[stat.ST_SIZE]
return kwargs
def _check_locale(self):
'''
Uses the locale module to test the currently set locale
(per the LANG and LC_CTYPE environment settings)
'''
try:
# setting the locale to '' uses the default locale
# as it would be returned by locale.getdefaultlocale()
locale.setlocale(locale.LC_ALL, '')
except locale.Error:
# fallback to the 'C' locale, which may cause unicode
# issues but is preferable to simply failing because
# of an unknown locale
locale.setlocale(locale.LC_ALL, 'C')
os.environ['LANG'] = 'C'
os.environ['LC_ALL'] = 'C'
os.environ['LC_MESSAGES'] = 'C'
except Exception as e:
self.fail_json(msg="An unknown error was encountered while attempting to validate the locale: %s" %
to_native(e), exception=traceback.format_exc())
def _handle_aliases(self, spec=None, param=None, option_prefix=''):
if spec is None:
spec = self.argument_spec
if param is None:
param = self.params
# this uses exceptions as it happens before we can safely call fail_json
alias_warnings = []
alias_results, self._legal_inputs = handle_aliases(spec, param, alias_warnings=alias_warnings)
for option, alias in alias_warnings:
warn('Both option %s and its alias %s are set.' % (option_prefix + option, option_prefix + alias))
deprecated_aliases = []
for i in spec.keys():
if 'deprecated_aliases' in spec[i].keys():
for alias in spec[i]['deprecated_aliases']:
deprecated_aliases.append(alias)
for deprecation in deprecated_aliases:
if deprecation['name'] in param.keys():
deprecate("Alias '%s' is deprecated. See the module docs for more information" % deprecation['name'],
version=deprecation.get('version'), date=deprecation.get('date'),
collection_name=deprecation.get('collection_name'))
return alias_results
def _handle_no_log_values(self, spec=None, param=None):
if spec is None:
spec = self.argument_spec
if param is None:
param = self.params
try:
self.no_log_values.update(list_no_log_values(spec, param))
except TypeError as te:
self.fail_json(msg="Failure when processing no_log parameters. Module invocation will be hidden. "
"%s" % to_native(te), invocation={'module_args': 'HIDDEN DUE TO FAILURE'})
for message in list_deprecations(spec, param):
deprecate(message['msg'], version=message.get('version'), date=message.get('date'),
collection_name=message.get('collection_name'))
def _check_arguments(self, spec=None, param=None, legal_inputs=None):
self._syslog_facility = 'LOG_USER'
unsupported_parameters = set()
if spec is None:
spec = self.argument_spec
if param is None:
param = self.params
if legal_inputs is None:
legal_inputs = self._legal_inputs
for k in list(param.keys()):
if k not in legal_inputs:
unsupported_parameters.add(k)
for k in PASS_VARS:
# handle setting internal properties from internal ansible vars
param_key = '_ansible_%s' % k
if param_key in param:
if k in PASS_BOOLS:
setattr(self, PASS_VARS[k][0], self.boolean(param[param_key]))
else:
setattr(self, PASS_VARS[k][0], param[param_key])
# clean up internal top level params:
if param_key in self.params:
del self.params[param_key]
else:
# use defaults if not already set
if not hasattr(self, PASS_VARS[k][0]):
setattr(self, PASS_VARS[k][0], PASS_VARS[k][1])
if unsupported_parameters:
msg = "Unsupported parameters for (%s) module: %s" % (self._name, ', '.join(sorted(list(unsupported_parameters))))
if self._options_context:
msg += " found in %s." % " -> ".join(self._options_context)
msg += " Supported parameters include: %s" % (', '.join(sorted(spec.keys())))
self.fail_json(msg=msg)
if self.check_mode and not self.supports_check_mode:
self.exit_json(skipped=True, msg="remote module (%s) does not support check mode" % self._name)
def _count_terms(self, check, param=None):
if param is None:
param = self.params
return count_terms(check, param)
def _check_mutually_exclusive(self, spec, param=None):
if param is None:
param = self.params
try:
check_mutually_exclusive(spec, param)
except TypeError as e:
msg = to_native(e)
if self._options_context:
msg += " found in %s" % " -> ".join(self._options_context)
self.fail_json(msg=msg)
def _check_required_one_of(self, spec, param=None):
if spec is None:
return
if param is None:
param = self.params
try:
check_required_one_of(spec, param)
except TypeError as e:
msg = to_native(e)
if self._options_context:
msg += " found in %s" % " -> ".join(self._options_context)
self.fail_json(msg=msg)
def _check_required_together(self, spec, param=None):
if spec is None:
return
if param is None:
param = self.params
try:
check_required_together(spec, param)
except TypeError as e:
msg = to_native(e)
if self._options_context:
msg += " found in %s" % " -> ".join(self._options_context)
self.fail_json(msg=msg)
def _check_required_by(self, spec, param=None):
if spec is None:
return
if param is None:
param = self.params
try:
check_required_by(spec, param)
except TypeError as e:
self.fail_json(msg=to_native(e))
def _check_required_arguments(self, spec=None, param=None):
if spec is None:
spec = self.argument_spec
if param is None:
param = self.params
try:
check_required_arguments(spec, param)
except TypeError as e:
msg = to_native(e)
if self._options_context:
msg += " found in %s" % " -> ".join(self._options_context)
self.fail_json(msg=msg)
def _check_required_if(self, spec, param=None):
''' ensure that parameters which conditionally required are present '''
if spec is None:
return
if param is None:
param = self.params
try:
check_required_if(spec, param)
except TypeError as e:
msg = to_native(e)
if self._options_context:
msg += " found in %s" % " -> ".join(self._options_context)
self.fail_json(msg=msg)
def _check_argument_values(self, spec=None, param=None):
''' ensure all arguments have the requested values, and there are no stray arguments '''
if spec is None:
spec = self.argument_spec
if param is None:
param = self.params
for (k, v) in spec.items():
choices = v.get('choices', None)
if choices is None:
continue
if isinstance(choices, SEQUENCETYPE) and not isinstance(choices, (binary_type, text_type)):
if k in param:
# Allow one or more when type='list' param with choices
if isinstance(param[k], list):
diff_list = ", ".join([item for item in param[k] if item not in choices])
if diff_list:
choices_str = ", ".join([to_native(c) for c in choices])
msg = "value of %s must be one or more of: %s. Got no match for: %s" % (k, choices_str, diff_list)
if self._options_context:
msg += " found in %s" % " -> ".join(self._options_context)
self.fail_json(msg=msg)
elif param[k] not in choices:
# PyYaml converts certain strings to bools. If we can unambiguously convert back, do so before checking
# the value. If we can't figure this out, module author is responsible.
lowered_choices = None
if param[k] == 'False':
lowered_choices = lenient_lowercase(choices)
overlap = BOOLEANS_FALSE.intersection(choices)
if len(overlap) == 1:
# Extract from a set
(param[k],) = overlap
if param[k] == 'True':
if lowered_choices is None:
lowered_choices = lenient_lowercase(choices)
overlap = BOOLEANS_TRUE.intersection(choices)
if len(overlap) == 1:
(param[k],) = overlap
if param[k] not in choices:
choices_str = ", ".join([to_native(c) for c in choices])
msg = "value of %s must be one of: %s, got: %s" % (k, choices_str, param[k])
if self._options_context:
msg += " found in %s" % " -> ".join(self._options_context)
self.fail_json(msg=msg)
else:
msg = "internal error: choices for argument %s are not iterable: %s" % (k, choices)
if self._options_context:
msg += " found in %s" % " -> ".join(self._options_context)
self.fail_json(msg=msg)
def safe_eval(self, value, locals=None, include_exceptions=False):
return safe_eval(value, locals, include_exceptions)
def _check_type_str(self, value, param=None, prefix=''):
opts = {
'error': False,
'warn': False,
'ignore': True
}
# Ignore, warn, or error when converting to a string.
allow_conversion = opts.get(self._string_conversion_action, True)
try:
return check_type_str(value, allow_conversion)
except TypeError:
common_msg = 'quote the entire value to ensure it does not change.'
from_msg = '{0!r}'.format(value)
to_msg = '{0!r}'.format(to_text(value))
if param is not None:
if prefix:
param = '{0}{1}'.format(prefix, param)
from_msg = '{0}: {1!r}'.format(param, value)
to_msg = '{0}: {1!r}'.format(param, to_text(value))
if self._string_conversion_action == 'error':
msg = common_msg.capitalize()
raise TypeError(to_native(msg))
elif self._string_conversion_action == 'warn':
msg = ('The value "{0}" (type {1.__class__.__name__}) was converted to "{2}" (type string). '
'If this does not look like what you expect, {3}').format(from_msg, value, to_msg, common_msg)
self.warn(to_native(msg))
return to_native(value, errors='surrogate_or_strict')
def _check_type_list(self, value):
return check_type_list(value)
def _check_type_dict(self, value):
return check_type_dict(value)
def _check_type_bool(self, value):
return check_type_bool(value)
def _check_type_int(self, value):
return check_type_int(value)
def _check_type_float(self, value):
return check_type_float(value)
def _check_type_path(self, value):
return check_type_path(value)
def _check_type_jsonarg(self, value):
return check_type_jsonarg(value)
def _check_type_raw(self, value):
return check_type_raw(value)
def _check_type_bytes(self, value):
return check_type_bytes(value)
def _check_type_bits(self, value):
return check_type_bits(value)
def _handle_options(self, argument_spec=None, params=None, prefix=''):
''' deal with options to create sub spec '''
if argument_spec is None:
argument_spec = self.argument_spec
if params is None:
params = self.params
for (k, v) in argument_spec.items():
wanted = v.get('type', None)
if wanted == 'dict' or (wanted == 'list' and v.get('elements', '') == 'dict'):
spec = v.get('options', None)
if v.get('apply_defaults', False):
if spec is not None:
if params.get(k) is None:
params[k] = {}
else:
continue
elif spec is None or k not in params or params[k] is None:
continue
self._options_context.append(k)
if isinstance(params[k], dict):
elements = [params[k]]
else:
elements = params[k]
for idx, param in enumerate(elements):
if not isinstance(param, dict):
self.fail_json(msg="value of %s must be of type dict or list of dict" % k)
new_prefix = prefix + k
if wanted == 'list':
new_prefix += '[%d]' % idx
new_prefix += '.'
self._set_fallbacks(spec, param)
options_aliases = self._handle_aliases(spec, param, option_prefix=new_prefix)
options_legal_inputs = list(spec.keys()) + list(options_aliases.keys())
self._check_arguments(spec, param, options_legal_inputs)
# check exclusive early
if not self.bypass_checks:
self._check_mutually_exclusive(v.get('mutually_exclusive', None), param)
self._set_defaults(pre=True, spec=spec, param=param)
if not self.bypass_checks:
self._check_required_arguments(spec, param)
self._check_argument_types(spec, param, new_prefix)
self._check_argument_values(spec, param)
self._check_required_together(v.get('required_together', None), param)
self._check_required_one_of(v.get('required_one_of', None), param)
self._check_required_if(v.get('required_if', None), param)
self._check_required_by(v.get('required_by', None), param)
self._set_defaults(pre=False, spec=spec, param=param)
# handle multi level options (sub argspec)
self._handle_options(spec, param, new_prefix)
self._options_context.pop()
def _get_wanted_type(self, wanted, k):
if not callable(wanted):
if wanted is None:
# Mostly we want to default to str.
# For values set to None explicitly, return None instead as
# that allows a user to unset a parameter
wanted = 'str'
try:
type_checker = self._CHECK_ARGUMENT_TYPES_DISPATCHER[wanted]
except KeyError:
self.fail_json(msg="implementation error: unknown type %s requested for %s" % (wanted, k))
else:
# set the type_checker to the callable, and reset wanted to the callable's name (or type if it doesn't have one, ala MagicMock)
type_checker = wanted
wanted = getattr(wanted, '__name__', to_native(type(wanted)))
return type_checker, wanted
def _handle_elements(self, wanted, param, values):
type_checker, wanted_name = self._get_wanted_type(wanted, param)
validated_params = []
# Get param name for strings so we can later display this value in a useful error message if needed
# Only pass 'kwargs' to our checkers and ignore custom callable checkers
kwargs = {}
if wanted_name == 'str' and isinstance(wanted, string_types):
if isinstance(param, string_types):
kwargs['param'] = param
elif isinstance(param, dict):
kwargs['param'] = list(param.keys())[0]
for value in values:
try:
validated_params.append(type_checker(value, **kwargs))
except (TypeError, ValueError) as e:
msg = "Elements value for option %s" % param
if self._options_context:
msg += " found in '%s'" % " -> ".join(self._options_context)
msg += " is of type %s and we were unable to convert to %s: %s" % (type(value), wanted_name, to_native(e))
self.fail_json(msg=msg)
return validated_params
def _check_argument_types(self, spec=None, param=None, prefix=''):
''' ensure all arguments have the requested type '''
if spec is None:
spec = self.argument_spec
if param is None:
param = self.params
for (k, v) in spec.items():
wanted = v.get('type', None)
if k not in param:
continue
value = param[k]
if value is None:
continue
type_checker, wanted_name = self._get_wanted_type(wanted, k)
# Get param name for strings so we can later display this value in a useful error message if needed
# Only pass 'kwargs' to our checkers and ignore custom callable checkers
kwargs = {}
if wanted_name == 'str' and isinstance(type_checker, string_types):
kwargs['param'] = list(param.keys())[0]
# Get the name of the parent key if this is a nested option
if prefix:
kwargs['prefix'] = prefix
try:
param[k] = type_checker(value, **kwargs)
wanted_elements = v.get('elements', None)
if wanted_elements:
if wanted != 'list' or not isinstance(param[k], list):
msg = "Invalid type %s for option '%s'" % (wanted_name, param)
if self._options_context:
msg += " found in '%s'." % " -> ".join(self._options_context)
msg += ", elements value check is supported only with 'list' type"
self.fail_json(msg=msg)
param[k] = self._handle_elements(wanted_elements, k, param[k])
except (TypeError, ValueError) as e:
msg = "argument %s is of type %s" % (k, type(value))
if self._options_context:
msg += " found in '%s'." % " -> ".join(self._options_context)
msg += " and we were unable to convert to %s: %s" % (wanted_name, to_native(e))
self.fail_json(msg=msg)
def _set_defaults(self, pre=True, spec=None, param=None):
if spec is None:
spec = self.argument_spec
if param is None:
param = self.params
for (k, v) in spec.items():
default = v.get('default', None)
if pre is True:
# this prevents setting defaults on required items
if default is not None and k not in param:
param[k] = default
else:
# make sure things without a default still get set None
if k not in param:
param[k] = default
def _set_fallbacks(self, spec=None, param=None):
if spec is None:
spec = self.argument_spec
if param is None:
param = self.params
for (k, v) in spec.items():
fallback = v.get('fallback', (None,))
fallback_strategy = fallback[0]
fallback_args = []
fallback_kwargs = {}
if k not in param and fallback_strategy is not None:
for item in fallback[1:]:
if isinstance(item, dict):
fallback_kwargs = item
else:
fallback_args = item
try:
param[k] = fallback_strategy(*fallback_args, **fallback_kwargs)
except AnsibleFallbackNotFound:
continue
def _load_params(self):
''' read the input and set the params attribute.
This method is for backwards compatibility. The guts of the function
were moved out in 2.1 so that custom modules could read the parameters.
'''
# debug overrides to read args from file or cmdline
self.params = _load_params()
def _log_to_syslog(self, msg):
if HAS_SYSLOG:
module = 'ansible-%s' % self._name
facility = getattr(syslog, self._syslog_facility, syslog.LOG_USER)
syslog.openlog(str(module), 0, facility)
syslog.syslog(syslog.LOG_INFO, msg)
def debug(self, msg):
if self._debug:
self.log('[debug] %s' % msg)
def log(self, msg, log_args=None):
if not self.no_log:
if log_args is None:
log_args = dict()
module = 'ansible-%s' % self._name
if isinstance(module, binary_type):
module = module.decode('utf-8', 'replace')
# 6655 - allow for accented characters
if not isinstance(msg, (binary_type, text_type)):
raise TypeError("msg should be a string (got %s)" % type(msg))
# We want journal to always take text type
# syslog takes bytes on py2, text type on py3
if isinstance(msg, binary_type):
journal_msg = remove_values(msg.decode('utf-8', 'replace'), self.no_log_values)
else:
# TODO: surrogateescape is a danger here on Py3
journal_msg = remove_values(msg, self.no_log_values)
if PY3:
syslog_msg = journal_msg
else:
syslog_msg = journal_msg.encode('utf-8', 'replace')
if has_journal:
journal_args = [("MODULE", os.path.basename(__file__))]
for arg in log_args:
journal_args.append((arg.upper(), str(log_args[arg])))
try:
if HAS_SYSLOG:
# If syslog_facility specified, it needs to convert
# from the facility name to the facility code, and
# set it as SYSLOG_FACILITY argument of journal.send()
facility = getattr(syslog,
self._syslog_facility,
syslog.LOG_USER) >> 3
journal.send(MESSAGE=u"%s %s" % (module, journal_msg),
SYSLOG_FACILITY=facility,
**dict(journal_args))
else:
journal.send(MESSAGE=u"%s %s" % (module, journal_msg),
**dict(journal_args))
except IOError:
# fall back to syslog since logging to journal failed
self._log_to_syslog(syslog_msg)
else:
self._log_to_syslog(syslog_msg)
def _log_invocation(self):
''' log that ansible ran the module '''
# TODO: generalize a separate log function and make log_invocation use it
# Sanitize possible password argument when logging.
log_args = dict()
for param in self.params:
canon = self.aliases.get(param, param)
arg_opts = self.argument_spec.get(canon, {})
no_log = arg_opts.get('no_log', None)
# try to proactively capture password/passphrase fields
if no_log is None and PASSWORD_MATCH.search(param):
log_args[param] = 'NOT_LOGGING_PASSWORD'
self.warn('Module did not set no_log for %s' % param)
elif self.boolean(no_log):
log_args[param] = 'NOT_LOGGING_PARAMETER'
else:
param_val = self.params[param]
if not isinstance(param_val, (text_type, binary_type)):
param_val = str(param_val)
elif isinstance(param_val, text_type):
param_val = param_val.encode('utf-8')
log_args[param] = heuristic_log_sanitize(param_val, self.no_log_values)
msg = ['%s=%s' % (to_native(arg), to_native(val)) for arg, val in log_args.items()]
if msg:
msg = 'Invoked with %s' % ' '.join(msg)
else:
msg = 'Invoked'
self.log(msg, log_args=log_args)
def _set_cwd(self):
try:
cwd = os.getcwd()
if not os.access(cwd, os.F_OK | os.R_OK):
raise Exception()
return cwd
except Exception:
# we don't have access to the cwd, probably because of sudo.
# Try and move to a neutral location to prevent errors
for cwd in [self.tmpdir, os.path.expandvars('$HOME'), tempfile.gettempdir()]:
try:
if os.access(cwd, os.F_OK | os.R_OK):
os.chdir(cwd)
return cwd
except Exception:
pass
# we won't error here, as it may *not* be a problem,
# and we don't want to break modules unnecessarily
return None
def get_bin_path(self, arg, required=False, opt_dirs=None):
'''
Find system executable in PATH.
:param arg: The executable to find.
:param required: if executable is not found and required is ``True``, fail_json
:param opt_dirs: optional list of directories to search in addition to ``PATH``
:returns: if found return full path; otherwise return None
'''
bin_path = None
try:
bin_path = get_bin_path(arg=arg, opt_dirs=opt_dirs)
except ValueError as e:
if required:
self.fail_json(msg=to_text(e))
else:
return bin_path
return bin_path
def boolean(self, arg):
'''Convert the argument to a boolean'''
if arg is None:
return arg
try:
return boolean(arg)
except TypeError as e:
self.fail_json(msg=to_native(e))
def jsonify(self, data):
try:
return jsonify(data)
except UnicodeError as e:
self.fail_json(msg=to_text(e))
def from_json(self, data):
return json.loads(data)
def add_cleanup_file(self, path):
if path not in self.cleanup_files:
self.cleanup_files.append(path)
def do_cleanup_files(self):
for path in self.cleanup_files:
self.cleanup(path)
def _return_formatted(self, kwargs):
self.add_path_info(kwargs)
if 'invocation' not in kwargs:
kwargs['invocation'] = {'module_args': self.params}
if 'warnings' in kwargs:
if isinstance(kwargs['warnings'], list):
for w in kwargs['warnings']:
self.warn(w)
else:
self.warn(kwargs['warnings'])
warnings = get_warning_messages()
if warnings:
kwargs['warnings'] = warnings
if 'deprecations' in kwargs:
if isinstance(kwargs['deprecations'], list):
for d in kwargs['deprecations']:
if isinstance(d, SEQUENCETYPE) and len(d) == 2:
self.deprecate(d[0], version=d[1])
elif isinstance(d, Mapping):
self.deprecate(d['msg'], version=d.get('version'), date=d.get('date'),
collection_name=d.get('collection_name'))
else:
self.deprecate(d) # pylint: disable=ansible-deprecated-no-version
else:
self.deprecate(kwargs['deprecations']) # pylint: disable=ansible-deprecated-no-version
deprecations = get_deprecation_messages()
if deprecations:
kwargs['deprecations'] = deprecations
kwargs = remove_values(kwargs, self.no_log_values)
print('\n%s' % self.jsonify(kwargs))
def exit_json(self, **kwargs):
''' return from the module, without error '''
self.do_cleanup_files()
self._return_formatted(kwargs)
sys.exit(0)
def fail_json(self, msg, **kwargs):
''' return from the module, with an error message '''
kwargs['failed'] = True
kwargs['msg'] = msg
# Add traceback if debug or high verbosity and it is missing
# NOTE: Badly named as exception, it really always has been a traceback
if 'exception' not in kwargs and sys.exc_info()[2] and (self._debug or self._verbosity >= 3):
if PY2:
# On Python 2 this is the last (stack frame) exception and as such may be unrelated to the failure
kwargs['exception'] = 'WARNING: The below traceback may *not* be related to the actual failure.\n' +\
''.join(traceback.format_tb(sys.exc_info()[2]))
else:
kwargs['exception'] = ''.join(traceback.format_tb(sys.exc_info()[2]))
self.do_cleanup_files()
self._return_formatted(kwargs)
sys.exit(1)
def fail_on_missing_params(self, required_params=None):
if not required_params:
return
try:
check_missing_parameters(self.params, required_params)
except TypeError as e:
self.fail_json(msg=to_native(e))
def digest_from_file(self, filename, algorithm):
''' Return hex digest of local file for a digest_method specified by name, or None if file is not present. '''
b_filename = to_bytes(filename, errors='surrogate_or_strict')
if not os.path.exists(b_filename):
return None
if os.path.isdir(b_filename):
self.fail_json(msg="attempted to take checksum of directory: %s" % filename)
# preserve old behaviour where the third parameter was a hash algorithm object
if hasattr(algorithm, 'hexdigest'):
digest_method = algorithm
else:
try:
digest_method = AVAILABLE_HASH_ALGORITHMS[algorithm]()
except KeyError:
self.fail_json(msg="Could not hash file '%s' with algorithm '%s'. Available algorithms: %s" %
(filename, algorithm, ', '.join(AVAILABLE_HASH_ALGORITHMS)))
blocksize = 64 * 1024
infile = open(os.path.realpath(b_filename), 'rb')
block = infile.read(blocksize)
while block:
digest_method.update(block)
block = infile.read(blocksize)
infile.close()
return digest_method.hexdigest()
def md5(self, filename):
''' Return MD5 hex digest of local file using digest_from_file().
Do not use this function unless you have no other choice for:
1) Optional backwards compatibility
2) Compatibility with a third party protocol
This function will not work on systems complying with FIPS-140-2.
Most uses of this function can use the module.sha1 function instead.
'''
if 'md5' not in AVAILABLE_HASH_ALGORITHMS:
raise ValueError('MD5 not available. Possibly running in FIPS mode')
return self.digest_from_file(filename, 'md5')
def sha1(self, filename):
''' Return SHA1 hex digest of local file using digest_from_file(). '''
return self.digest_from_file(filename, 'sha1')
def sha256(self, filename):
''' Return SHA-256 hex digest of local file using digest_from_file(). '''
return self.digest_from_file(filename, 'sha256')
def backup_local(self, fn):
'''make a date-marked backup of the specified file, return True or False on success or failure'''
backupdest = ''
if os.path.exists(fn):
# backups named basename.PID.YYYY-MM-DD@HH:MM:SS~
ext = time.strftime("%Y-%m-%d@%H:%M:%S~", time.localtime(time.time()))
backupdest = '%s.%s.%s' % (fn, os.getpid(), ext)
try:
self.preserved_copy(fn, backupdest)
except (shutil.Error, IOError) as e:
self.fail_json(msg='Could not make backup of %s to %s: %s' % (fn, backupdest, to_native(e)))
return backupdest
def cleanup(self, tmpfile):
if os.path.exists(tmpfile):
try:
os.unlink(tmpfile)
except OSError as e:
sys.stderr.write("could not cleanup %s: %s" % (tmpfile, to_native(e)))
def preserved_copy(self, src, dest):
"""Copy a file with preserved ownership, permissions and context"""
# shutil.copy2(src, dst)
# Similar to shutil.copy(), but metadata is copied as well - in fact,
# this is just shutil.copy() followed by copystat(). This is similar
# to the Unix command cp -p.
#
# shutil.copystat(src, dst)
# Copy the permission bits, last access time, last modification time,
# and flags from src to dst. The file contents, owner, and group are
# unaffected. src and dst are path names given as strings.
shutil.copy2(src, dest)
# Set the context
if self.selinux_enabled():
context = self.selinux_context(src)
self.set_context_if_different(dest, context, False)
# chown it
try:
dest_stat = os.stat(src)
tmp_stat = os.stat(dest)
if dest_stat and (tmp_stat.st_uid != dest_stat.st_uid or tmp_stat.st_gid != dest_stat.st_gid):
os.chown(dest, dest_stat.st_uid, dest_stat.st_gid)
except OSError as e:
if e.errno != errno.EPERM:
raise
# Set the attributes
current_attribs = self.get_file_attributes(src)
current_attribs = current_attribs.get('attr_flags', '')
self.set_attributes_if_different(dest, current_attribs, True)
def atomic_move(self, src, dest, unsafe_writes=False):
'''atomically move src to dest, copying attributes from dest, returns true on success
it uses os.rename to ensure this as it is an atomic operation, rest of the function is
to work around limitations, corner cases and ensure selinux context is saved if possible'''
context = None
dest_stat = None
b_src = to_bytes(src, errors='surrogate_or_strict')
b_dest = to_bytes(dest, errors='surrogate_or_strict')
if os.path.exists(b_dest):
try:
dest_stat = os.stat(b_dest)
# copy mode and ownership
os.chmod(b_src, dest_stat.st_mode & PERM_BITS)
os.chown(b_src, dest_stat.st_uid, dest_stat.st_gid)
# try to copy flags if possible
if hasattr(os, 'chflags') and hasattr(dest_stat, 'st_flags'):
try:
os.chflags(b_src, dest_stat.st_flags)
except OSError as e:
for err in 'EOPNOTSUPP', 'ENOTSUP':
if hasattr(errno, err) and e.errno == getattr(errno, err):
break
else:
raise
except OSError as e:
if e.errno != errno.EPERM:
raise
if self.selinux_enabled():
context = self.selinux_context(dest)
else:
if self.selinux_enabled():
context = self.selinux_default_context(dest)
creating = not os.path.exists(b_dest)
try:
# Optimistically try a rename, solves some corner cases and can avoid useless work, throws exception if not atomic.
os.rename(b_src, b_dest)
except (IOError, OSError) as e:
if e.errno not in [errno.EPERM, errno.EXDEV, errno.EACCES, errno.ETXTBSY, errno.EBUSY]:
# only try workarounds for errno 18 (cross device), 1 (not permitted), 13 (permission denied)
# and 26 (text file busy) which happens on vagrant synced folders and other 'exotic' non posix file systems
self.fail_json(msg='Could not replace file: %s to %s: %s' % (src, dest, to_native(e)),
exception=traceback.format_exc())
else:
# Use bytes here. In the shippable CI, this fails with
# a UnicodeError with surrogateescape'd strings for an unknown
# reason (doesn't happen in a local Ubuntu16.04 VM)
b_dest_dir = os.path.dirname(b_dest)
b_suffix = os.path.basename(b_dest)
error_msg = None
tmp_dest_name = None
try:
tmp_dest_fd, tmp_dest_name = tempfile.mkstemp(prefix=b'.ansible_tmp',
dir=b_dest_dir, suffix=b_suffix)
except (OSError, IOError) as e:
error_msg = 'The destination directory (%s) is not writable by the current user. Error was: %s' % (os.path.dirname(dest), to_native(e))
except TypeError:
# We expect that this is happening because python3.4.x and
# below can't handle byte strings in mkstemp(). Traceback
# would end in something like:
# file = _os.path.join(dir, pre + name + suf)
# TypeError: can't concat bytes to str
error_msg = ('Failed creating tmp file for atomic move. This usually happens when using Python3 less than Python3.5. '
'Please use Python2.x or Python3.5 or greater.')
finally:
if error_msg:
if unsafe_writes:
self._unsafe_writes(b_src, b_dest)
else:
self.fail_json(msg=error_msg, exception=traceback.format_exc())
if tmp_dest_name:
b_tmp_dest_name = to_bytes(tmp_dest_name, errors='surrogate_or_strict')
try:
try:
# close tmp file handle before file operations to prevent text file busy errors on vboxfs synced folders (windows host)
os.close(tmp_dest_fd)
# leaves tmp file behind when sudo and not root
try:
shutil.move(b_src, b_tmp_dest_name)
except OSError:
# cleanup will happen by 'rm' of tmpdir
# copy2 will preserve some metadata
shutil.copy2(b_src, b_tmp_dest_name)
if self.selinux_enabled():
self.set_context_if_different(
b_tmp_dest_name, context, False)
try:
tmp_stat = os.stat(b_tmp_dest_name)
if dest_stat and (tmp_stat.st_uid != dest_stat.st_uid or tmp_stat.st_gid != dest_stat.st_gid):
os.chown(b_tmp_dest_name, dest_stat.st_uid, dest_stat.st_gid)
except OSError as e:
if e.errno != errno.EPERM:
raise
try:
os.rename(b_tmp_dest_name, b_dest)
except (shutil.Error, OSError, IOError) as e:
if unsafe_writes and e.errno == errno.EBUSY:
self._unsafe_writes(b_tmp_dest_name, b_dest)
else:
self.fail_json(msg='Unable to make %s into to %s, failed final rename from %s: %s' %
(src, dest, b_tmp_dest_name, to_native(e)),
exception=traceback.format_exc())
except (shutil.Error, OSError, IOError) as e:
self.fail_json(msg='Failed to replace file: %s to %s: %s' % (src, dest, to_native(e)),
exception=traceback.format_exc())
finally:
self.cleanup(b_tmp_dest_name)
if creating:
# make sure the file has the correct permissions
# based on the current value of umask
umask = os.umask(0)
os.umask(umask)
os.chmod(b_dest, DEFAULT_PERM & ~umask)
try:
os.chown(b_dest, os.geteuid(), os.getegid())
except OSError:
# We're okay with trying our best here. If the user is not
# root (or old Unices) they won't be able to chown.
pass
if self.selinux_enabled():
# rename might not preserve context
self.set_context_if_different(dest, context, False)
def _unsafe_writes(self, src, dest):
# sadly there are some situations where we cannot ensure atomicity, but only if
# the user insists and we get the appropriate error we update the file unsafely
try:
out_dest = in_src = None
try:
out_dest = open(dest, 'wb')
in_src = open(src, 'rb')
shutil.copyfileobj(in_src, out_dest)
finally: # assuring closed files in 2.4 compatible way
if out_dest:
out_dest.close()
if in_src:
in_src.close()
except (shutil.Error, OSError, IOError) as e:
self.fail_json(msg='Could not write data to file (%s) from (%s): %s' % (dest, src, to_native(e)),
exception=traceback.format_exc())
def _clean_args(self, args):
if not self._clean:
# create a printable version of the command for use in reporting later,
# which strips out things like passwords from the args list
to_clean_args = args
if PY2:
if isinstance(args, text_type):
to_clean_args = to_bytes(args)
else:
if isinstance(args, binary_type):
to_clean_args = to_text(args)
if isinstance(args, (text_type, binary_type)):
to_clean_args = shlex.split(to_clean_args)
clean_args = []
is_passwd = False
for arg in (to_native(a) for a in to_clean_args):
if is_passwd:
is_passwd = False
clean_args.append('********')
continue
if PASSWD_ARG_RE.match(arg):
sep_idx = arg.find('=')
if sep_idx > -1:
clean_args.append('%s=********' % arg[:sep_idx])
continue
else:
is_passwd = True
arg = heuristic_log_sanitize(arg, self.no_log_values)
clean_args.append(arg)
self._clean = ' '.join(shlex_quote(arg) for arg in clean_args)
return self._clean
def _restore_signal_handlers(self):
# Reset SIGPIPE to SIG_DFL, otherwise in Python2.7 it gets ignored in subprocesses.
if PY2 and sys.platform != 'win32':
signal.signal(signal.SIGPIPE, signal.SIG_DFL)
def run_command(self, args, check_rc=False, close_fds=True, executable=None, data=None, binary_data=False, path_prefix=None, cwd=None,
use_unsafe_shell=False, prompt_regex=None, environ_update=None, umask=None, encoding='utf-8', errors='surrogate_or_strict',
expand_user_and_vars=True, pass_fds=None, before_communicate_callback=None):
'''
Execute a command, returns rc, stdout, and stderr.
:arg args: is the command to run
* If args is a list, the command will be run with shell=False.
* If args is a string and use_unsafe_shell=False it will split args to a list and run with shell=False
* If args is a string and use_unsafe_shell=True it runs with shell=True.
:kw check_rc: Whether to call fail_json in case of non zero RC.
Default False
:kw close_fds: See documentation for subprocess.Popen(). Default True
:kw executable: See documentation for subprocess.Popen(). Default None
:kw data: If given, information to write to the stdin of the command
:kw binary_data: If False, append a newline to the data. Default False
:kw path_prefix: If given, additional path to find the command in.
This adds to the PATH environment variable so helper commands in
the same directory can also be found
:kw cwd: If given, working directory to run the command inside
:kw use_unsafe_shell: See `args` parameter. Default False
:kw prompt_regex: Regex string (not a compiled regex) which can be
used to detect prompts in the stdout which would otherwise cause
the execution to hang (especially if no input data is specified)
:kw environ_update: dictionary to *update* os.environ with
:kw umask: Umask to be used when running the command. Default None
:kw encoding: Since we return native strings, on python3 we need to
know the encoding to use to transform from bytes to text. If you
want to always get bytes back, use encoding=None. The default is
"utf-8". This does not affect transformation of strings given as
args.
:kw errors: Since we return native strings, on python3 we need to
transform stdout and stderr from bytes to text. If the bytes are
undecodable in the ``encoding`` specified, then use this error
handler to deal with them. The default is ``surrogate_or_strict``
which means that the bytes will be decoded using the
surrogateescape error handler if available (available on all
python3 versions we support) otherwise a UnicodeError traceback
will be raised. This does not affect transformations of strings
given as args.
:kw expand_user_and_vars: When ``use_unsafe_shell=False`` this argument
dictates whether ``~`` is expanded in paths and environment variables
are expanded before running the command. When ``True`` a string such as
``$SHELL`` will be expanded regardless of escaping. When ``False`` and
``use_unsafe_shell=False`` no path or variable expansion will be done.
:kw pass_fds: When running on Python 3 this argument
dictates which file descriptors should be passed
to an underlying ``Popen`` constructor. On Python 2, this will
set ``close_fds`` to False.
:kw before_communicate_callback: This function will be called
after ``Popen`` object will be created
but before communicating to the process.
(``Popen`` object will be passed to callback as a first argument)
:returns: A 3-tuple of return code (integer), stdout (native string),
and stderr (native string). On python2, stdout and stderr are both
byte strings. On python3, stdout and stderr are text strings converted
according to the encoding and errors parameters. If you want byte
strings on python3, use encoding=None to turn decoding to text off.
'''
# used by clean args later on
self._clean = None
if not isinstance(args, (list, binary_type, text_type)):
msg = "Argument 'args' to run_command must be list or string"
self.fail_json(rc=257, cmd=args, msg=msg)
shell = False
if use_unsafe_shell:
# stringify args for unsafe/direct shell usage
if isinstance(args, list):
args = b" ".join([to_bytes(shlex_quote(x), errors='surrogate_or_strict') for x in args])
else:
args = to_bytes(args, errors='surrogate_or_strict')
# not set explicitly, check if set by controller
if executable:
executable = to_bytes(executable, errors='surrogate_or_strict')
args = [executable, b'-c', args]
elif self._shell not in (None, '/bin/sh'):
args = [to_bytes(self._shell, errors='surrogate_or_strict'), b'-c', args]
else:
shell = True
else:
# ensure args are a list
if isinstance(args, (binary_type, text_type)):
# On python2.6 and below, shlex has problems with text type
# On python3, shlex needs a text type.
if PY2:
args = to_bytes(args, errors='surrogate_or_strict')
elif PY3:
args = to_text(args, errors='surrogateescape')
args = shlex.split(args)
# expand ``~`` in paths, and all environment vars
if expand_user_and_vars:
args = [to_bytes(os.path.expanduser(os.path.expandvars(x)), errors='surrogate_or_strict') for x in args if x is not None]
else:
args = [to_bytes(x, errors='surrogate_or_strict') for x in args if x is not None]
prompt_re = None
if prompt_regex:
if isinstance(prompt_regex, text_type):
if PY3:
prompt_regex = to_bytes(prompt_regex, errors='surrogateescape')
elif PY2:
prompt_regex = to_bytes(prompt_regex, errors='surrogate_or_strict')
try:
prompt_re = re.compile(prompt_regex, re.MULTILINE)
except re.error:
self.fail_json(msg="invalid prompt regular expression given to run_command")
rc = 0
msg = None
st_in = None
# Manipulate the environ we'll send to the new process
old_env_vals = {}
# We can set this from both an attribute and per call
for key, val in self.run_command_environ_update.items():
old_env_vals[key] = os.environ.get(key, None)
os.environ[key] = val
if environ_update:
for key, val in environ_update.items():
old_env_vals[key] = os.environ.get(key, None)
os.environ[key] = val
if path_prefix:
old_env_vals['PATH'] = os.environ['PATH']
os.environ['PATH'] = "%s:%s" % (path_prefix, os.environ['PATH'])
# If using test-module.py and explode, the remote lib path will resemble:
# /tmp/test_module_scratch/debug_dir/ansible/module_utils/basic.py
# If using ansible or ansible-playbook with a remote system:
# /tmp/ansible_vmweLQ/ansible_modlib.zip/ansible/module_utils/basic.py
# Clean out python paths set by ansiballz
if 'PYTHONPATH' in os.environ:
pypaths = os.environ['PYTHONPATH'].split(':')
pypaths = [x for x in pypaths
if not x.endswith('/ansible_modlib.zip') and
not x.endswith('/debug_dir')]
os.environ['PYTHONPATH'] = ':'.join(pypaths)
if not os.environ['PYTHONPATH']:
del os.environ['PYTHONPATH']
if data:
st_in = subprocess.PIPE
kwargs = dict(
executable=executable,
shell=shell,
close_fds=close_fds,
stdin=st_in,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
preexec_fn=self._restore_signal_handlers,
)
if PY3 and pass_fds:
kwargs["pass_fds"] = pass_fds
elif PY2 and pass_fds:
kwargs['close_fds'] = False
# store the pwd
prev_dir = os.getcwd()
# make sure we're in the right working directory
if cwd and os.path.isdir(cwd):
cwd = to_bytes(os.path.abspath(os.path.expanduser(cwd)), errors='surrogate_or_strict')
kwargs['cwd'] = cwd
try:
os.chdir(cwd)
except (OSError, IOError) as e:
self.fail_json(rc=e.errno, msg="Could not open %s, %s" % (cwd, to_native(e)),
exception=traceback.format_exc())
old_umask = None
if umask:
old_umask = os.umask(umask)
try:
if self._debug:
self.log('Executing: ' + self._clean_args(args))
cmd = subprocess.Popen(args, **kwargs)
if before_communicate_callback:
before_communicate_callback(cmd)
# the communication logic here is essentially taken from that
# of the _communicate() function in ssh.py
stdout = b''
stderr = b''
selector = selectors.DefaultSelector()
selector.register(cmd.stdout, selectors.EVENT_READ)
selector.register(cmd.stderr, selectors.EVENT_READ)
if os.name == 'posix':
fcntl.fcntl(cmd.stdout.fileno(), fcntl.F_SETFL, fcntl.fcntl(cmd.stdout.fileno(), fcntl.F_GETFL) | os.O_NONBLOCK)
fcntl.fcntl(cmd.stderr.fileno(), fcntl.F_SETFL, fcntl.fcntl(cmd.stderr.fileno(), fcntl.F_GETFL) | os.O_NONBLOCK)
if data:
if not binary_data:
data += '\n'
if isinstance(data, text_type):
data = to_bytes(data)
cmd.stdin.write(data)
cmd.stdin.close()
while True:
events = selector.select(1)
for key, event in events:
b_chunk = key.fileobj.read()
if b_chunk == b(''):
selector.unregister(key.fileobj)
if key.fileobj == cmd.stdout:
stdout += b_chunk
elif key.fileobj == cmd.stderr:
stderr += b_chunk
# if we're checking for prompts, do it now
if prompt_re:
if prompt_re.search(stdout) and not data:
if encoding:
stdout = to_native(stdout, encoding=encoding, errors=errors)
return (257, stdout, "A prompt was encountered while running a command, but no input data was specified")
# only break out if no pipes are left to read or
# the pipes are completely read and
# the process is terminated
if (not events or not selector.get_map()) and cmd.poll() is not None:
break
# No pipes are left to read but process is not yet terminated
# Only then it is safe to wait for the process to be finished
# NOTE: Actually cmd.poll() is always None here if no selectors are left
elif not selector.get_map() and cmd.poll() is None:
cmd.wait()
# The process is terminated. Since no pipes to read from are
# left, there is no need to call select() again.
break
cmd.stdout.close()
cmd.stderr.close()
selector.close()
rc = cmd.returncode
except (OSError, IOError) as e:
self.log("Error Executing CMD:%s Exception:%s" % (self._clean_args(args), to_native(e)))
self.fail_json(rc=e.errno, msg=to_native(e), cmd=self._clean_args(args))
except Exception as e:
self.log("Error Executing CMD:%s Exception:%s" % (self._clean_args(args), to_native(traceback.format_exc())))
self.fail_json(rc=257, msg=to_native(e), exception=traceback.format_exc(), cmd=self._clean_args(args))
# Restore env settings
for key, val in old_env_vals.items():
if val is None:
del os.environ[key]
else:
os.environ[key] = val
if old_umask:
os.umask(old_umask)
if rc != 0 and check_rc:
msg = heuristic_log_sanitize(stderr.rstrip(), self.no_log_values)
self.fail_json(cmd=self._clean_args(args), rc=rc, stdout=stdout, stderr=stderr, msg=msg)
# reset the pwd
os.chdir(prev_dir)
if encoding is not None:
return (rc, to_native(stdout, encoding=encoding, errors=errors),
to_native(stderr, encoding=encoding, errors=errors))
return (rc, stdout, stderr)
def append_to_file(self, filename, str):
filename = os.path.expandvars(os.path.expanduser(filename))
fh = open(filename, 'a')
fh.write(str)
fh.close()
def bytes_to_human(self, size):
return bytes_to_human(size)
# for backwards compatibility
pretty_bytes = bytes_to_human
def human_to_bytes(self, number, isbits=False):
return human_to_bytes(number, isbits)
#
# Backwards compat
#
# In 2.0, moved from inside the module to the toplevel
is_executable = is_executable
@staticmethod
def get_buffer_size(fd):
try:
# 1032 == FZ_GETPIPE_SZ
buffer_size = fcntl.fcntl(fd, 1032)
except Exception:
try:
# not as exact as above, but should be good enough for most platforms that fail the previous call
buffer_size = select.PIPE_BUF
except Exception:
buffer_size = 9000 # use sane default JIC
return buffer_size
def get_module_path():
return os.path.dirname(os.path.realpath(__file__))
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