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# (c) 2014, Chris Church <chris@ninemoreminutes.com>
# Copyright (c) 2017 Ansible Project
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
DOCUMENTATION = """
author: Ansible Core Team
name: winrm
short_description: Run tasks over Microsoft's WinRM
description:
- Run commands or put/fetch on a target via WinRM
- This plugin allows extra arguments to be passed that are supported by the protocol but not explicitly defined here.
They should take the form of variables declared with the following pattern C(ansible_winrm_<option>).
version_added: "2.0"
extends_documentation_fragment:
- connection_pipelining
requirements:
- pywinrm (python library)
options:
# figure out more elegant 'delegation'
remote_addr:
description:
- Address of the windows machine
default: inventory_hostname
vars:
- name: inventory_hostname
- name: ansible_host
- name: ansible_winrm_host
type: str
remote_user:
description:
- The user to log in as to the Windows machine
vars:
- name: ansible_user
- name: ansible_winrm_user
keyword:
- name: remote_user
type: str
remote_password:
description: Authentication password for the C(remote_user). Can be supplied as CLI option.
vars:
- name: ansible_password
- name: ansible_winrm_pass
- name: ansible_winrm_password
type: str
aliases:
- password # Needed for --ask-pass to come through on delegation
port:
description:
- port for winrm to connect on remote target
- The default is the https (5986) port, if using http it should be 5985
vars:
- name: ansible_port
- name: ansible_winrm_port
default: 5986
keyword:
- name: port
type: integer
scheme:
description:
- URI scheme to use
- If not set, then will default to C(https) or C(http) if I(port) is
C(5985).
choices: [http, https]
vars:
- name: ansible_winrm_scheme
type: str
path:
description: URI path to connect to
default: '/wsman'
vars:
- name: ansible_winrm_path
type: str
transport:
description:
- List of winrm transports to attempt to use (ssl, plaintext, kerberos, etc)
- If None (the default) the plugin will try to automatically guess the correct list
- The choices available depend on your version of pywinrm
type: list
elements: string
vars:
- name: ansible_winrm_transport
kerberos_command:
description: kerberos command to use to request a authentication ticket
default: kinit
vars:
- name: ansible_winrm_kinit_cmd
type: str
kinit_args:
description:
- Extra arguments to pass to C(kinit) when getting the Kerberos authentication ticket.
- By default no extra arguments are passed into C(kinit) unless I(ansible_winrm_kerberos_delegation) is also
set. In that case C(-f) is added to the C(kinit) args so a forwardable ticket is retrieved.
- If set, the args will overwrite any existing defaults for C(kinit), including C(-f) for a delegated ticket.
type: str
vars:
- name: ansible_winrm_kinit_args
version_added: '2.11'
kinit_env_vars:
description:
- A list of environment variables to pass through to C(kinit) when getting the Kerberos authentication ticket.
- By default no environment variables are passed through and C(kinit) is run with a blank slate.
- The environment variable C(KRB5CCNAME) cannot be specified here as it's used to store the temp Kerberos
ticket used by WinRM.
type: list
elements: str
default: []
ini:
- section: winrm
key: kinit_env_vars
vars:
- name: ansible_winrm_kinit_env_vars
version_added: '2.12'
kerberos_mode:
description:
- kerberos usage mode.
- The managed option means Ansible will obtain kerberos ticket.
- While the manual one means a ticket must already have been obtained by the user.
- If having issues with Ansible freezing when trying to obtain the
Kerberos ticket, you can either set this to C(manual) and obtain
it outside Ansible or install C(pexpect) through pip and try
again.
choices: [managed, manual]
vars:
- name: ansible_winrm_kinit_mode
type: str
connection_timeout:
description:
- Sets the operation and read timeout settings for the WinRM
connection.
- Corresponds to the C(operation_timeout_sec) and
C(read_timeout_sec) args in pywinrm so avoid setting these vars
with this one.
- The default value is whatever is set in the installed version of
pywinrm.
vars:
- name: ansible_winrm_connection_timeout
type: int
"""
import base64
import logging
import os
import re
import traceback
import json
import tempfile
import shlex
import subprocess
import time
from inspect import getfullargspec
from urllib.parse import urlunsplit
HAVE_KERBEROS = False
try:
import kerberos
HAVE_KERBEROS = True
except ImportError:
pass
from ansible import constants as C
from ansible.errors import AnsibleError, AnsibleConnectionFailure
from ansible.errors import AnsibleFileNotFound
from ansible.module_utils.json_utils import _filter_non_json_lines
from ansible.module_utils.parsing.convert_bool import boolean
from ansible.module_utils._text import to_bytes, to_native, to_text
from ansible.module_utils.six import binary_type
from ansible.plugins.connection import ConnectionBase
from ansible.plugins.shell.powershell import _parse_clixml
from ansible.utils.hashing import secure_hash
from ansible.utils.display import Display
try:
import winrm
from winrm import Response
from winrm.exceptions import WinRMError, WinRMOperationTimeoutError, WinRMTransportError
from winrm.protocol import Protocol
import requests.exceptions
HAS_WINRM = True
WINRM_IMPORT_ERR = None
except ImportError as e:
HAS_WINRM = False
WINRM_IMPORT_ERR = e
try:
import xmltodict
HAS_XMLTODICT = True
XMLTODICT_IMPORT_ERR = None
except ImportError as e:
HAS_XMLTODICT = False
XMLTODICT_IMPORT_ERR = e
HAS_PEXPECT = False
try:
import pexpect
# echo was added in pexpect 3.3+ which is newer than the RHEL package
# we can only use pexpect for kerb auth if echo is a valid kwarg
# https://github.com/ansible/ansible/issues/43462
if hasattr(pexpect, 'spawn'):
argspec = getfullargspec(pexpect.spawn.__init__)
if 'echo' in argspec.args:
HAS_PEXPECT = True
except ImportError as e:
pass
# used to try and parse the hostname and detect if IPv6 is being used
try:
import ipaddress
HAS_IPADDRESS = True
except ImportError:
HAS_IPADDRESS = False
display = Display()
class Connection(ConnectionBase):
'''WinRM connections over HTTP/HTTPS.'''
transport = 'winrm'
module_implementation_preferences = ('.ps1', '.exe', '')
allow_executable = False
has_pipelining = True
allow_extras = True
def __init__(self, *args, **kwargs):
self.always_pipeline_modules = True
self.has_native_async = True
self.protocol = None
self.shell_id = None
self.delegate = None
self._shell_type = 'powershell'
super(Connection, self).__init__(*args, **kwargs)
if not C.DEFAULT_DEBUG:
logging.getLogger('requests_credssp').setLevel(logging.INFO)
logging.getLogger('requests_kerberos').setLevel(logging.INFO)
logging.getLogger('urllib3').setLevel(logging.INFO)
def _build_winrm_kwargs(self):
# this used to be in set_options, as win_reboot needs to be able to
# override the conn timeout, we need to be able to build the args
# after setting individual options. This is called by _connect before
# starting the WinRM connection
self._winrm_host = self.get_option('remote_addr')
self._winrm_user = self.get_option('remote_user')
self._winrm_pass = self.get_option('remote_password')
self._winrm_port = self.get_option('port')
self._winrm_scheme = self.get_option('scheme')
# old behaviour, scheme should default to http if not set and the port
# is 5985 otherwise https
if self._winrm_scheme is None:
self._winrm_scheme = 'http' if self._winrm_port == 5985 else 'https'
self._winrm_path = self.get_option('path')
self._kinit_cmd = self.get_option('kerberos_command')
self._winrm_transport = self.get_option('transport')
self._winrm_connection_timeout = self.get_option('connection_timeout')
if hasattr(winrm, 'FEATURE_SUPPORTED_AUTHTYPES'):
self._winrm_supported_authtypes = set(winrm.FEATURE_SUPPORTED_AUTHTYPES)
else:
# for legacy versions of pywinrm, use the values we know are supported
self._winrm_supported_authtypes = set(['plaintext', 'ssl', 'kerberos'])
# calculate transport if needed
if self._winrm_transport is None or self._winrm_transport[0] is None:
# TODO: figure out what we want to do with auto-transport selection in the face of NTLM/Kerb/CredSSP/Cert/Basic
transport_selector = ['ssl'] if self._winrm_scheme == 'https' else ['plaintext']
if HAVE_KERBEROS and ((self._winrm_user and '@' in self._winrm_user)):
self._winrm_transport = ['kerberos'] + transport_selector
else:
self._winrm_transport = transport_selector
unsupported_transports = set(self._winrm_transport).difference(self._winrm_supported_authtypes)
if unsupported_transports:
raise AnsibleError('The installed version of WinRM does not support transport(s) %s' %
to_native(list(unsupported_transports), nonstring='simplerepr'))
# if kerberos is among our transports and there's a password specified, we're managing the tickets
kinit_mode = self.get_option('kerberos_mode')
if kinit_mode is None:
# HACK: ideally, remove multi-transport stuff
self._kerb_managed = "kerberos" in self._winrm_transport and (self._winrm_pass is not None and self._winrm_pass != "")
elif kinit_mode == "managed":
self._kerb_managed = True
elif kinit_mode == "manual":
self._kerb_managed = False
# arg names we're going passing directly
internal_kwarg_mask = {'self', 'endpoint', 'transport', 'username', 'password', 'scheme', 'path', 'kinit_mode', 'kinit_cmd'}
self._winrm_kwargs = dict(username=self._winrm_user, password=self._winrm_pass)
argspec = getfullargspec(Protocol.__init__)
supported_winrm_args = set(argspec.args)
supported_winrm_args.update(internal_kwarg_mask)
passed_winrm_args = {v.replace('ansible_winrm_', '') for v in self.get_option('_extras')}
unsupported_args = passed_winrm_args.difference(supported_winrm_args)
# warn for kwargs unsupported by the installed version of pywinrm
for arg in unsupported_args:
display.warning("ansible_winrm_{0} unsupported by pywinrm (is an up-to-date version of pywinrm installed?)".format(arg))
# pass through matching extras, excluding the list we want to treat specially
for arg in passed_winrm_args.difference(internal_kwarg_mask).intersection(supported_winrm_args):
self._winrm_kwargs[arg] = self.get_option('_extras')['ansible_winrm_%s' % arg]
# Until pykerberos has enough goodies to implement a rudimentary kinit/klist, simplest way is to let each connection
# auth itself with a private CCACHE.
def _kerb_auth(self, principal, password):
if password is None:
password = ""
self._kerb_ccache = tempfile.NamedTemporaryFile()
display.vvvvv("creating Kerberos CC at %s" % self._kerb_ccache.name)
krb5ccname = "FILE:%s" % self._kerb_ccache.name
os.environ["KRB5CCNAME"] = krb5ccname
krb5env = dict(PATH=os.environ["PATH"], KRB5CCNAME=krb5ccname)
# Add any explicit environment vars into the krb5env block
kinit_env_vars = self.get_option('kinit_env_vars')
for var in kinit_env_vars:
if var not in krb5env and var in os.environ:
krb5env[var] = os.environ[var]
# Stores various flags to call with kinit, these could be explicit args set by 'ansible_winrm_kinit_args' OR
# '-f' if kerberos delegation is requested (ansible_winrm_kerberos_delegation).
kinit_cmdline = [self._kinit_cmd]
kinit_args = self.get_option('kinit_args')
if kinit_args:
kinit_args = [to_text(a) for a in shlex.split(kinit_args) if a.strip()]
kinit_cmdline.extend(kinit_args)
elif boolean(self.get_option('_extras').get('ansible_winrm_kerberos_delegation', False)):
kinit_cmdline.append('-f')
kinit_cmdline.append(principal)
# pexpect runs the process in its own pty so it can correctly send
# the password as input even on MacOS which blocks subprocess from
# doing so. Unfortunately it is not available on the built in Python
# so we can only use it if someone has installed it
if HAS_PEXPECT:
proc_mechanism = "pexpect"
command = kinit_cmdline.pop(0)
password = to_text(password, encoding='utf-8',
errors='surrogate_or_strict')
display.vvvv("calling kinit with pexpect for principal %s"
% principal)
try:
child = pexpect.spawn(command, kinit_cmdline, timeout=60,
env=krb5env, echo=False)
except pexpect.ExceptionPexpect as err:
err_msg = "Kerberos auth failure when calling kinit cmd " \
"'%s': %s" % (command, to_native(err))
raise AnsibleConnectionFailure(err_msg)
try:
child.expect(".*:")
child.sendline(password)
except OSError as err:
# child exited before the pass was sent, Ansible will raise
# error based on the rc below, just display the error here
display.vvvv("kinit with pexpect raised OSError: %s"
% to_native(err))
# technically this is the stdout + stderr but to match the
# subprocess error checking behaviour, we will call it stderr
stderr = child.read()
child.wait()
rc = child.exitstatus
else:
proc_mechanism = "subprocess"
password = to_bytes(password, encoding='utf-8',
errors='surrogate_or_strict')
display.vvvv("calling kinit with subprocess for principal %s"
% principal)
try:
p = subprocess.Popen(kinit_cmdline, stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
env=krb5env)
except OSError as err:
err_msg = "Kerberos auth failure when calling kinit cmd " \
"'%s': %s" % (self._kinit_cmd, to_native(err))
raise AnsibleConnectionFailure(err_msg)
stdout, stderr = p.communicate(password + b'\n')
rc = p.returncode != 0
if rc != 0:
# one last attempt at making sure the password does not exist
# in the output
exp_msg = to_native(stderr.strip())
exp_msg = exp_msg.replace(to_native(password), "<redacted>")
err_msg = "Kerberos auth failure for principal %s with %s: %s" \
% (principal, proc_mechanism, exp_msg)
raise AnsibleConnectionFailure(err_msg)
display.vvvvv("kinit succeeded for principal %s" % principal)
def _winrm_connect(self):
'''
Establish a WinRM connection over HTTP/HTTPS.
'''
display.vvv("ESTABLISH WINRM CONNECTION FOR USER: %s on PORT %s TO %s" %
(self._winrm_user, self._winrm_port, self._winrm_host), host=self._winrm_host)
winrm_host = self._winrm_host
if HAS_IPADDRESS:
display.debug("checking if winrm_host %s is an IPv6 address" % winrm_host)
try:
ipaddress.IPv6Address(winrm_host)
except ipaddress.AddressValueError:
pass
else:
winrm_host = "[%s]" % winrm_host
netloc = '%s:%d' % (winrm_host, self._winrm_port)
endpoint = urlunsplit((self._winrm_scheme, netloc, self._winrm_path, '', ''))
errors = []
for transport in self._winrm_transport:
if transport == 'kerberos':
if not HAVE_KERBEROS:
errors.append('kerberos: the python kerberos library is not installed')
continue
if self._kerb_managed:
self._kerb_auth(self._winrm_user, self._winrm_pass)
display.vvvvv('WINRM CONNECT: transport=%s endpoint=%s' % (transport, endpoint), host=self._winrm_host)
try:
winrm_kwargs = self._winrm_kwargs.copy()
if self._winrm_connection_timeout:
winrm_kwargs['operation_timeout_sec'] = self._winrm_connection_timeout
winrm_kwargs['read_timeout_sec'] = self._winrm_connection_timeout + 1
protocol = Protocol(endpoint, transport=transport, **winrm_kwargs)
# open the shell from connect so we know we're able to talk to the server
if not self.shell_id:
self.shell_id = protocol.open_shell(codepage=65001) # UTF-8
display.vvvvv('WINRM OPEN SHELL: %s' % self.shell_id, host=self._winrm_host)
return protocol
except Exception as e:
err_msg = to_text(e).strip()
if re.search(to_text(r'Operation\s+?timed\s+?out'), err_msg, re.I):
raise AnsibleError('the connection attempt timed out')
m = re.search(to_text(r'Code\s+?(\d{3})'), err_msg)
if m:
code = int(m.groups()[0])
if code == 401:
err_msg = 'the specified credentials were rejected by the server'
elif code == 411:
return protocol
errors.append(u'%s: %s' % (transport, err_msg))
display.vvvvv(u'WINRM CONNECTION ERROR: %s\n%s' % (err_msg, to_text(traceback.format_exc())), host=self._winrm_host)
if errors:
raise AnsibleConnectionFailure(', '.join(map(to_native, errors)))
else:
raise AnsibleError('No transport found for WinRM connection')
def _winrm_write_stdin(self, command_id, stdin_iterator):
for (data, is_last) in stdin_iterator:
for attempt in range(1, 4):
try:
self._winrm_send_input(self.protocol, self.shell_id, command_id, data, eof=is_last)
except WinRMOperationTimeoutError:
# A WSMan OperationTimeout can be received for a Send
# operation when the server is under severe load. On manual
# testing the input is still processed and it's safe to
# continue. As the calling method still tries to wait for
# the proc to end if this failed it shouldn't hurt to just
# treat this as a warning.
display.warning(
"WSMan OperationTimeout during send input, attempting to continue. "
"If this continues to occur, try increasing the connection_timeout "
"value for this host."
)
if not is_last:
time.sleep(5)
except WinRMError as e:
# Error 170 == ERROR_BUSY. This could be the result of a
# timed out Send from above still being processed on the
# server. Add a 5 second delay and try up to 3 times before
# fully giving up.
# pywinrm does not expose the internal WSMan fault details
# through an actual object but embeds it as a repr.
if attempt == 3 or "'wsmanfault_code': '170'" not in str(e):
raise
display.warning(f"WSMan send failed on attempt {attempt} as the command is busy, trying to send data again")
time.sleep(5)
continue
break
def _winrm_send_input(self, protocol, shell_id, command_id, stdin, eof=False):
rq = {'env:Envelope': protocol._get_soap_header(
resource_uri='http://schemas.microsoft.com/wbem/wsman/1/windows/shell/cmd',
action='http://schemas.microsoft.com/wbem/wsman/1/windows/shell/Send',
shell_id=shell_id)}
stream = rq['env:Envelope'].setdefault('env:Body', {}).setdefault('rsp:Send', {})\
.setdefault('rsp:Stream', {})
stream['@Name'] = 'stdin'
stream['@CommandId'] = command_id
stream['#text'] = base64.b64encode(to_bytes(stdin))
if eof:
stream['@End'] = 'true'
protocol.send_message(xmltodict.unparse(rq))
def _winrm_exec(self, command, args=(), from_exec=False, stdin_iterator=None):
if not self.protocol:
self.protocol = self._winrm_connect()
self._connected = True
if from_exec:
display.vvvvv("WINRM EXEC %r %r" % (command, args), host=self._winrm_host)
else:
display.vvvvvv("WINRM EXEC %r %r" % (command, args), host=self._winrm_host)
command_id = None
try:
stdin_push_failed = False
command_id = self.protocol.run_command(self.shell_id, to_bytes(command), map(to_bytes, args), console_mode_stdin=(stdin_iterator is None))
try:
if stdin_iterator:
self._winrm_write_stdin(command_id, stdin_iterator)
except Exception as ex:
display.warning("ERROR DURING WINRM SEND INPUT - attempting to recover: %s %s"
% (type(ex).__name__, to_text(ex)))
display.debug(traceback.format_exc())
stdin_push_failed = True
# NB: this can hang if the receiver is still running (eg, network failed a Send request but the server's still happy).
# FUTURE: Consider adding pywinrm status check/abort operations to see if the target is still running after a failure.
resptuple = self.protocol.get_command_output(self.shell_id, command_id)
# ensure stdout/stderr are text for py3
# FUTURE: this should probably be done internally by pywinrm
response = Response(tuple(to_text(v) if isinstance(v, binary_type) else v for v in resptuple))
# TODO: check result from response and set stdin_push_failed if we have nonzero
if from_exec:
display.vvvvv('WINRM RESULT %r' % to_text(response), host=self._winrm_host)
else:
display.vvvvvv('WINRM RESULT %r' % to_text(response), host=self._winrm_host)
display.vvvvvv('WINRM STDOUT %s' % to_text(response.std_out), host=self._winrm_host)
display.vvvvvv('WINRM STDERR %s' % to_text(response.std_err), host=self._winrm_host)
if stdin_push_failed:
# There are cases where the stdin input failed but the WinRM service still processed it. We attempt to
# see if stdout contains a valid json return value so we can ignore this error
try:
filtered_output, dummy = _filter_non_json_lines(response.std_out)
json.loads(filtered_output)
except ValueError:
# stdout does not contain a return response, stdin input was a fatal error
stderr = to_bytes(response.std_err, encoding='utf-8')
if stderr.startswith(b"#< CLIXML"):
stderr = _parse_clixml(stderr)
raise AnsibleError('winrm send_input failed; \nstdout: %s\nstderr %s'
% (to_native(response.std_out), to_native(stderr)))
return response
except requests.exceptions.Timeout as exc:
raise AnsibleConnectionFailure('winrm connection error: %s' % to_native(exc))
finally:
if command_id:
# Due to a bug in how pywinrm works with message encryption we
# ignore a 400 error which can occur when a task timeout is
# set and the code tries to clean up the command. This happens
# as the cleanup msg is sent over a new socket but still uses
# the already encrypted payload bound to the other socket
# causing the server to reply with 400 Bad Request.
try:
self.protocol.cleanup_command(self.shell_id, command_id)
except WinRMTransportError as e:
if e.code != 400:
raise
display.warning("Failed to cleanup running WinRM command, resources might still be in use on the target server")
def _connect(self):
if not HAS_WINRM:
raise AnsibleError("winrm or requests is not installed: %s" % to_native(WINRM_IMPORT_ERR))
elif not HAS_XMLTODICT:
raise AnsibleError("xmltodict is not installed: %s" % to_native(XMLTODICT_IMPORT_ERR))
super(Connection, self)._connect()
if not self.protocol:
self._build_winrm_kwargs() # build the kwargs from the options set
self.protocol = self._winrm_connect()
self._connected = True
return self
def reset(self):
if not self._connected:
return
self.protocol = None
self.shell_id = None
self._connect()
def _wrapper_payload_stream(self, payload, buffer_size=200000):
payload_bytes = to_bytes(payload)
byte_count = len(payload_bytes)
for i in range(0, byte_count, buffer_size):
yield payload_bytes[i:i + buffer_size], i + buffer_size >= byte_count
def exec_command(self, cmd, in_data=None, sudoable=True):
super(Connection, self).exec_command(cmd, in_data=in_data, sudoable=sudoable)
cmd_parts = self._shell._encode_script(cmd, as_list=True, strict_mode=False, preserve_rc=False)
# TODO: display something meaningful here
display.vvv("EXEC (via pipeline wrapper)")
stdin_iterator = None
if in_data:
stdin_iterator = self._wrapper_payload_stream(in_data)
result = self._winrm_exec(cmd_parts[0], cmd_parts[1:], from_exec=True, stdin_iterator=stdin_iterator)
result.std_out = to_bytes(result.std_out)
result.std_err = to_bytes(result.std_err)
# parse just stderr from CLIXML output
if result.std_err.startswith(b"#< CLIXML"):
try:
result.std_err = _parse_clixml(result.std_err)
except Exception:
# unsure if we're guaranteed a valid xml doc- use raw output in case of error
pass
return (result.status_code, result.std_out, result.std_err)
# FUTURE: determine buffer size at runtime via remote winrm config?
def _put_file_stdin_iterator(self, in_path, out_path, buffer_size=250000):
in_size = os.path.getsize(to_bytes(in_path, errors='surrogate_or_strict'))
offset = 0
with open(to_bytes(in_path, errors='surrogate_or_strict'), 'rb') as in_file:
for out_data in iter((lambda: in_file.read(buffer_size)), b''):
offset += len(out_data)
self._display.vvvvv('WINRM PUT "%s" to "%s" (offset=%d size=%d)' % (in_path, out_path, offset, len(out_data)), host=self._winrm_host)
# yes, we're double-encoding over the wire in this case- we want to ensure that the data shipped to the end PS pipeline is still b64-encoded
b64_data = base64.b64encode(out_data) + b'\r\n'
# cough up the data, as well as an indicator if this is the last chunk so winrm_send knows to set the End signal
yield b64_data, (in_file.tell() == in_size)
if offset == 0: # empty file, return an empty buffer + eof to close it
yield "", True
def put_file(self, in_path, out_path):
super(Connection, self).put_file(in_path, out_path)
out_path = self._shell._unquote(out_path)
display.vvv('PUT "%s" TO "%s"' % (in_path, out_path), host=self._winrm_host)
if not os.path.exists(to_bytes(in_path, errors='surrogate_or_strict')):
raise AnsibleFileNotFound('file or module does not exist: "%s"' % to_native(in_path))
script_template = u'''
begin {{
$path = '{0}'
$DebugPreference = "Continue"
$ErrorActionPreference = "Stop"
Set-StrictMode -Version 2
$fd = [System.IO.File]::Create($path)
$sha1 = [System.Security.Cryptography.SHA1CryptoServiceProvider]::Create()
$bytes = @() #initialize for empty file case
}}
process {{
$bytes = [System.Convert]::FromBase64String($input)
$sha1.TransformBlock($bytes, 0, $bytes.Length, $bytes, 0) | Out-Null
$fd.Write($bytes, 0, $bytes.Length)
}}
end {{
$sha1.TransformFinalBlock($bytes, 0, 0) | Out-Null
$hash = [System.BitConverter]::ToString($sha1.Hash).Replace("-", "").ToLowerInvariant()
$fd.Close()
Write-Output "{{""sha1"":""$hash""}}"
}}
'''
script = script_template.format(self._shell._escape(out_path))
cmd_parts = self._shell._encode_script(script, as_list=True, strict_mode=False, preserve_rc=False)
result = self._winrm_exec(cmd_parts[0], cmd_parts[1:], stdin_iterator=self._put_file_stdin_iterator(in_path, out_path))
# TODO: improve error handling
if result.status_code != 0:
raise AnsibleError(to_native(result.std_err))
try:
put_output = json.loads(result.std_out)
except ValueError:
# stdout does not contain a valid response
stderr = to_bytes(result.std_err, encoding='utf-8')
if stderr.startswith(b"#< CLIXML"):
stderr = _parse_clixml(stderr)
raise AnsibleError('winrm put_file failed; \nstdout: %s\nstderr %s' % (to_native(result.std_out), to_native(stderr)))
remote_sha1 = put_output.get("sha1")
if not remote_sha1:
raise AnsibleError("Remote sha1 was not returned")
local_sha1 = secure_hash(in_path)
if not remote_sha1 == local_sha1:
raise AnsibleError("Remote sha1 hash {0} does not match local hash {1}".format(to_native(remote_sha1), to_native(local_sha1)))
def fetch_file(self, in_path, out_path):
super(Connection, self).fetch_file(in_path, out_path)
in_path = self._shell._unquote(in_path)
out_path = out_path.replace('\\', '/')
# consistent with other connection plugins, we assume the caller has created the target dir
display.vvv('FETCH "%s" TO "%s"' % (in_path, out_path), host=self._winrm_host)
buffer_size = 2**19 # 0.5MB chunks
out_file = None
try:
offset = 0
while True:
try:
script = '''
$path = '%(path)s'
If (Test-Path -Path $path -PathType Leaf)
{
$buffer_size = %(buffer_size)d
$offset = %(offset)d
$stream = New-Object -TypeName IO.FileStream($path, [IO.FileMode]::Open, [IO.FileAccess]::Read, [IO.FileShare]::ReadWrite)
$stream.Seek($offset, [System.IO.SeekOrigin]::Begin) > $null
$buffer = New-Object -TypeName byte[] $buffer_size
$bytes_read = $stream.Read($buffer, 0, $buffer_size)
if ($bytes_read -gt 0) {
$bytes = $buffer[0..($bytes_read - 1)]
[System.Convert]::ToBase64String($bytes)
}
$stream.Close() > $null
}
ElseIf (Test-Path -Path $path -PathType Container)
{
Write-Host "[DIR]";
}
Else
{
Write-Error "$path does not exist";
Exit 1;
}
''' % dict(buffer_size=buffer_size, path=self._shell._escape(in_path), offset=offset)
display.vvvvv('WINRM FETCH "%s" to "%s" (offset=%d)' % (in_path, out_path, offset), host=self._winrm_host)
cmd_parts = self._shell._encode_script(script, as_list=True, preserve_rc=False)
result = self._winrm_exec(cmd_parts[0], cmd_parts[1:])
if result.status_code != 0:
raise IOError(to_native(result.std_err))
if result.std_out.strip() == '[DIR]':
data = None
else:
data = base64.b64decode(result.std_out.strip())
if data is None:
break
else:
if not out_file:
# If out_path is a directory and we're expecting a file, bail out now.
if os.path.isdir(to_bytes(out_path, errors='surrogate_or_strict')):
break
out_file = open(to_bytes(out_path, errors='surrogate_or_strict'), 'wb')
out_file.write(data)
if len(data) < buffer_size:
break
offset += len(data)
except Exception:
traceback.print_exc()
raise AnsibleError('failed to transfer file to "%s"' % to_native(out_path))
finally:
if out_file:
out_file.close()
def close(self):
if self.protocol and self.shell_id:
display.vvvvv('WINRM CLOSE SHELL: %s' % self.shell_id, host=self._winrm_host)
self.protocol.close_shell(self.shell_id)
self.shell_id = None
self.protocol = None
self._connected = False