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"""Contains client side logic of WinRM SOAP protocol implementation"""
from __future__ import unicode_literals
import base64
import uuid
import xml.etree.ElementTree as ET
import xmltodict
from six import text_type, binary_type
from winrm.transport import Transport
from winrm.exceptions import WinRMError, WinRMTransportError, WinRMOperationTimeoutError
xmlns = {
'soapenv': 'http://www.w3.org/2003/05/soap-envelope',
'soapaddr': 'http://schemas.xmlsoap.org/ws/2004/08/addressing',
'wsmanfault': "http://schemas.microsoft.com/wbem/wsman/1/wsmanfault"
}
class Protocol(object):
"""This is the main class that does the SOAP request/response logic. There
are a few helper classes, but pretty much everything comes through here
first.
"""
DEFAULT_READ_TIMEOUT_SEC = 30
DEFAULT_OPERATION_TIMEOUT_SEC = 20
DEFAULT_MAX_ENV_SIZE = 153600
DEFAULT_LOCALE = 'en-US'
def __init__(
self, endpoint, transport='plaintext', username=None,
password=None, realm=None, service="HTTP", keytab=None,
ca_trust_path=None, cert_pem=None, cert_key_pem=None,
server_cert_validation='validate',
kerberos_delegation=False,
read_timeout_sec=DEFAULT_READ_TIMEOUT_SEC,
operation_timeout_sec=DEFAULT_OPERATION_TIMEOUT_SEC,
kerberos_hostname_override=None,
message_encryption='auto',
credssp_disable_tlsv1_2=False,
send_cbt=True,
):
"""
@param string endpoint: the WinRM webservice endpoint
@param string transport: transport type, one of 'plaintext' (default), 'kerberos', 'ssl', 'ntlm', 'credssp' # NOQA
@param string username: username
@param string password: password
@param string realm: unused
@param string service: the service name, default is HTTP
@param string keytab: the path to a keytab file if you are using one
@param string ca_trust_path: Certification Authority trust path
@param string cert_pem: client authentication certificate file path in PEM format # NOQA
@param string cert_key_pem: client authentication certificate key file path in PEM format # NOQA
@param string server_cert_validation: whether server certificate should be validated on Python versions that suppport it; one of 'validate' (default), 'ignore' #NOQA
@param bool kerberos_delegation: if True, TGT is sent to target server to allow multiple hops # NOQA
@param int read_timeout_sec: maximum seconds to wait before an HTTP connect/read times out (default 30). This value should be slightly higher than operation_timeout_sec, as the server can block *at least* that long. # NOQA
@param int operation_timeout_sec: maximum allowed time in seconds for any single wsman HTTP operation (default 20). Note that operation timeouts while receiving output (the only wsman operation that should take any significant time, and where these timeouts are expected) will be silently retried indefinitely. # NOQA
@param string kerberos_hostname_override: the hostname to use for the kerberos exchange (defaults to the hostname in the endpoint URL)
@param bool message_encryption_enabled: Will encrypt the WinRM messages if set to True and the transport auth supports message encryption (Default True).
"""
try:
read_timeout_sec = int(read_timeout_sec)
except ValueError as ve:
raise ValueError("failed to parse read_timeout_sec as int: %s" % str(ve))
try:
operation_timeout_sec = int(operation_timeout_sec)
except ValueError as ve:
raise ValueError("failed to parse operation_timeout_sec as int: %s" % str(ve))
if operation_timeout_sec >= read_timeout_sec or operation_timeout_sec < 1:
raise WinRMError("read_timeout_sec must exceed operation_timeout_sec, and both must be non-zero")
self.read_timeout_sec = read_timeout_sec
self.operation_timeout_sec = operation_timeout_sec
self.max_env_sz = Protocol.DEFAULT_MAX_ENV_SIZE
self.locale = Protocol.DEFAULT_LOCALE
self.transport = Transport(
endpoint=endpoint, username=username, password=password,
realm=realm, service=service, keytab=keytab,
ca_trust_path=ca_trust_path, cert_pem=cert_pem,
cert_key_pem=cert_key_pem, read_timeout_sec=self.read_timeout_sec,
server_cert_validation=server_cert_validation,
kerberos_delegation=kerberos_delegation,
kerberos_hostname_override=kerberos_hostname_override,
auth_method=transport,
message_encryption=message_encryption,
credssp_disable_tlsv1_2=credssp_disable_tlsv1_2,
send_cbt=send_cbt
)
self.username = username
self.password = password
self.service = service
self.keytab = keytab
self.ca_trust_path = ca_trust_path
self.server_cert_validation = server_cert_validation
self.kerberos_delegation = kerberos_delegation
self.kerberos_hostname_override = kerberos_hostname_override
self.credssp_disable_tlsv1_2 = credssp_disable_tlsv1_2
def open_shell(self, i_stream='stdin', o_stream='stdout stderr',
working_directory=None, env_vars=None, noprofile=False,
codepage=437, lifetime=None, idle_timeout=None):
"""
Create a Shell on the destination host
@param string i_stream: Which input stream to open. Leave this alone
unless you know what you're doing (default: stdin)
@param string o_stream: Which output stream to open. Leave this alone
unless you know what you're doing (default: stdout stderr)
@param string working_directory: the directory to create the shell in
@param dict env_vars: environment variables to set for the shell. For
instance: {'PATH': '%PATH%;c:/Program Files (x86)/Git/bin/', 'CYGWIN':
'nontsec codepage:utf8'}
@returns The ShellId from the SOAP response. This is our open shell
instance on the remote machine.
@rtype string
"""
req = {'env:Envelope': self._get_soap_header(
resource_uri='http://schemas.microsoft.com/wbem/wsman/1/windows/shell/cmd', # NOQA
action='http://schemas.xmlsoap.org/ws/2004/09/transfer/Create')}
header = req['env:Envelope']['env:Header']
header['w:OptionSet'] = {
'w:Option': [
{
'@Name': 'WINRS_NOPROFILE',
'#text': str(noprofile).upper() # TODO remove str call
},
{
'@Name': 'WINRS_CODEPAGE',
'#text': str(codepage) # TODO remove str call
}
]
}
shell = req['env:Envelope'].setdefault(
'env:Body', {}).setdefault('rsp:Shell', {})
shell['rsp:InputStreams'] = i_stream
shell['rsp:OutputStreams'] = o_stream
if working_directory:
# TODO ensure that rsp:WorkingDirectory should be nested within rsp:Shell # NOQA
shell['rsp:WorkingDirectory'] = working_directory
# TODO check Lifetime param: http://msdn.microsoft.com/en-us/library/cc251546(v=PROT.13).aspx # NOQA
#if lifetime:
# shell['rsp:Lifetime'] = iso8601_duration.sec_to_dur(lifetime)
# TODO make it so the input is given in milliseconds and converted to xs:duration # NOQA
if idle_timeout:
shell['rsp:IdleTimeOut'] = idle_timeout
if env_vars:
env = shell.setdefault('rsp:Environment', {})
for key, value in env_vars.items():
env['rsp:Variable'] = {'@Name': key, '#text': value}
res = self.send_message(xmltodict.unparse(req))
#res = xmltodict.parse(res)
#return res['s:Envelope']['s:Body']['x:ResourceCreated']['a:ReferenceParameters']['w:SelectorSet']['w:Selector']['#text']
root = ET.fromstring(res)
return next(
node for node in root.findall('.//*')
if node.get('Name') == 'ShellId').text
# Helper method for building SOAP Header
def _get_soap_header(
self, action=None, resource_uri=None, shell_id=None,
message_id=None):
if not message_id:
message_id = uuid.uuid4()
header = {
'@xmlns:xsd': 'http://www.w3.org/2001/XMLSchema',
'@xmlns:xsi': 'http://www.w3.org/2001/XMLSchema-instance',
'@xmlns:env': xmlns['soapenv'],
'@xmlns:a': xmlns['soapaddr'],
'@xmlns:b': 'http://schemas.dmtf.org/wbem/wsman/1/cimbinding.xsd',
'@xmlns:n': 'http://schemas.xmlsoap.org/ws/2004/09/enumeration',
'@xmlns:x': 'http://schemas.xmlsoap.org/ws/2004/09/transfer',
'@xmlns:w': 'http://schemas.dmtf.org/wbem/wsman/1/wsman.xsd',
'@xmlns:p': 'http://schemas.microsoft.com/wbem/wsman/1/wsman.xsd',
'@xmlns:rsp': 'http://schemas.microsoft.com/wbem/wsman/1/windows/shell', # NOQA
'@xmlns:cfg': 'http://schemas.microsoft.com/wbem/wsman/1/config',
'env:Header': {
'a:To': 'http://windows-host:5985/wsman',
'a:ReplyTo': {
'a:Address': {
'@mustUnderstand': 'true',
'#text': 'http://schemas.xmlsoap.org/ws/2004/08/addressing/role/anonymous' # NOQA
}
},
'w:MaxEnvelopeSize': {
'@mustUnderstand': 'true',
'#text': '153600'
},
'a:MessageID': 'uuid:{0}'.format(message_id),
'w:Locale': {
'@mustUnderstand': 'false',
'@xml:lang': 'en-US'
},
'p:DataLocale': {
'@mustUnderstand': 'false',
'@xml:lang': 'en-US'
},
# TODO: research this a bit http://msdn.microsoft.com/en-us/library/cc251561(v=PROT.13).aspx # NOQA
# 'cfg:MaxTimeoutms': 600
# Operation timeout in ISO8601 format, see http://msdn.microsoft.com/en-us/library/ee916629(v=PROT.13).aspx # NOQA
'w:OperationTimeout': 'PT{0}S'.format(int(self.operation_timeout_sec)),
'w:ResourceURI': {
'@mustUnderstand': 'true',
'#text': resource_uri
},
'a:Action': {
'@mustUnderstand': 'true',
'#text': action
}
}
}
if shell_id:
header['env:Header']['w:SelectorSet'] = {
'w:Selector': {
'@Name': 'ShellId',
'#text': shell_id
}
}
return header
def send_message(self, message):
# TODO add message_id vs relates_to checking
# TODO port error handling code
try:
resp = self.transport.send_message(message)
return resp
except WinRMTransportError as ex:
try:
# if response is XML-parseable, it's probably a SOAP fault; extract the details
root = ET.fromstring(ex.response_text)
except:
# assume some other transport error; raise the original exception
raise ex
fault = root.find('soapenv:Body/soapenv:Fault', xmlns)
if fault is not None:
fault_data = dict(
transport_message=ex.message,
http_status_code=ex.code
)
wsmanfault_code = fault.find('soapenv:Detail/wsmanfault:WSManFault[@Code]', xmlns)
if wsmanfault_code is not None:
fault_data['wsmanfault_code'] = wsmanfault_code.get('Code')
# convert receive timeout code to WinRMOperationTimeoutError
if fault_data['wsmanfault_code'] == '2150858793':
# TODO: this fault code is specific to the Receive operation; convert all op timeouts?
raise WinRMOperationTimeoutError()
fault_code = fault.find('soapenv:Code/soapenv:Value', xmlns)
if fault_code is not None:
fault_data['fault_code'] = fault_code.text
fault_subcode = fault.find('soapenv:Code/soapenv:Subcode/soapenv:Value', xmlns)
if fault_subcode is not None:
fault_data['fault_subcode'] = fault_subcode.text
error_message = fault.find('soapenv:Reason/soapenv:Text', xmlns)
if error_message is not None:
error_message = error_message.text
else:
error_message = "(no error message in fault)"
raise WinRMError('{0} (extended fault data: {1})'.format(error_message, fault_data))
def close_shell(self, shell_id):
"""
Close the shell
@param string shell_id: The shell id on the remote machine.
See #open_shell
@returns This should have more error checking but it just returns true
for now.
@rtype bool
"""
message_id = uuid.uuid4()
req = {'env:Envelope': self._get_soap_header(
resource_uri='http://schemas.microsoft.com/wbem/wsman/1/windows/shell/cmd', # NOQA
action='http://schemas.xmlsoap.org/ws/2004/09/transfer/Delete',
shell_id=shell_id,
message_id=message_id)}
# SOAP message requires empty env:Body
req['env:Envelope'].setdefault('env:Body', {})
res = self.send_message(xmltodict.unparse(req))
root = ET.fromstring(res)
relates_to = next(
node for node in root.findall('.//*')
if node.tag.endswith('RelatesTo')).text
# TODO change assert into user-friendly exception
assert uuid.UUID(relates_to.replace('uuid:', '')) == message_id
def run_command(
self, shell_id, command, arguments=(), console_mode_stdin=True,
skip_cmd_shell=False):
"""
Run a command on a machine with an open shell
@param string shell_id: The shell id on the remote machine.
See #open_shell
@param string command: The command to run on the remote machine
@param iterable of string arguments: An array of arguments for this
command
@param bool console_mode_stdin: (default: True)
@param bool skip_cmd_shell: (default: False)
@return: The CommandId from the SOAP response.
This is the ID we need to query in order to get output.
@rtype string
"""
req = {'env:Envelope': self._get_soap_header(
resource_uri='http://schemas.microsoft.com/wbem/wsman/1/windows/shell/cmd', # NOQA
action='http://schemas.microsoft.com/wbem/wsman/1/windows/shell/Command', # NOQA
shell_id=shell_id)}
header = req['env:Envelope']['env:Header']
header['w:OptionSet'] = {
'w:Option': [
{
'@Name': 'WINRS_CONSOLEMODE_STDIN',
'#text': str(console_mode_stdin).upper()
},
{
'@Name': 'WINRS_SKIP_CMD_SHELL',
'#text': str(skip_cmd_shell).upper()
}
]
}
cmd_line = req['env:Envelope'].setdefault(
'env:Body', {}).setdefault('rsp:CommandLine', {})
cmd_line['rsp:Command'] = {'#text': command}
if arguments:
unicode_args = [a if isinstance(a, text_type) else a.decode('utf-8') for a in arguments]
cmd_line['rsp:Arguments'] = u' '.join(unicode_args)
res = self.send_message(xmltodict.unparse(req))
root = ET.fromstring(res)
command_id = next(
node for node in root.findall('.//*')
if node.tag.endswith('CommandId')).text
return command_id
def cleanup_command(self, shell_id, command_id):
"""
Clean-up after a command. @see #run_command
@param string shell_id: The shell id on the remote machine.
See #open_shell
@param string command_id: The command id on the remote machine.
See #run_command
@returns: This should have more error checking but it just returns true
for now.
@rtype bool
"""
message_id = uuid.uuid4()
req = {'env:Envelope': self._get_soap_header(
resource_uri='http://schemas.microsoft.com/wbem/wsman/1/windows/shell/cmd', # NOQA
action='http://schemas.microsoft.com/wbem/wsman/1/windows/shell/Signal', # NOQA
shell_id=shell_id,
message_id=message_id)}
# Signal the Command references to terminate (close stdout/stderr)
signal = req['env:Envelope'].setdefault(
'env:Body', {}).setdefault('rsp:Signal', {})
signal['@CommandId'] = command_id
signal['rsp:Code'] = 'http://schemas.microsoft.com/wbem/wsman/1/windows/shell/signal/terminate' # NOQA
res = self.send_message(xmltodict.unparse(req))
root = ET.fromstring(res)
relates_to = next(
node for node in root.findall('.//*')
if node.tag.endswith('RelatesTo')).text
# TODO change assert into user-friendly exception
assert uuid.UUID(relates_to.replace('uuid:', '')) == message_id
def get_command_output(self, shell_id, command_id):
"""
Get the Output of the given shell and command
@param string shell_id: The shell id on the remote machine.
See #open_shell
@param string command_id: The command id on the remote machine.
See #run_command
#@return [Hash] Returns a Hash with a key :exitcode and :data.
Data is an Array of Hashes where the cooresponding key
# is either :stdout or :stderr. The reason it is in an Array so so
we can get the output in the order it ocurrs on
# the console.
"""
stdout_buffer, stderr_buffer = [], []
command_done = False
while not command_done:
try:
stdout, stderr, return_code, command_done = \
self._raw_get_command_output(shell_id, command_id)
stdout_buffer.append(stdout)
stderr_buffer.append(stderr)
except WinRMOperationTimeoutError as e:
# this is an expected error when waiting for a long-running process, just silently retry
pass
return b''.join(stdout_buffer), b''.join(stderr_buffer), return_code
def _raw_get_command_output(self, shell_id, command_id):
req = {'env:Envelope': self._get_soap_header(
resource_uri='http://schemas.microsoft.com/wbem/wsman/1/windows/shell/cmd', # NOQA
action='http://schemas.microsoft.com/wbem/wsman/1/windows/shell/Receive', # NOQA
shell_id=shell_id)}
stream = req['env:Envelope'].setdefault('env:Body', {}).setdefault(
'rsp:Receive', {}).setdefault('rsp:DesiredStream', {})
stream['@CommandId'] = command_id
stream['#text'] = 'stdout stderr'
res = self.send_message(xmltodict.unparse(req))
root = ET.fromstring(res)
stream_nodes = [
node for node in root.findall('.//*')
if node.tag.endswith('Stream')]
stdout = stderr = b''
return_code = -1
for stream_node in stream_nodes:
if not stream_node.text:
continue
if stream_node.attrib['Name'] == 'stdout':
stdout += base64.b64decode(stream_node.text.encode('ascii'))
elif stream_node.attrib['Name'] == 'stderr':
stderr += base64.b64decode(stream_node.text.encode('ascii'))
# We may need to get additional output if the stream has not finished.
# The CommandState will change from Running to Done like so:
# @example
# from...
# <rsp:CommandState CommandId="..." State="http://schemas.microsoft.com/wbem/wsman/1/windows/shell/CommandState/Running"/>
# to...
# <rsp:CommandState CommandId="..." State="http://schemas.microsoft.com/wbem/wsman/1/windows/shell/CommandState/Done">
# <rsp:ExitCode>0</rsp:ExitCode>
# </rsp:CommandState>
command_done = len([
node for node in root.findall('.//*')
if node.get('State', '').endswith('CommandState/Done')]) == 1
if command_done:
return_code = int(
next(node for node in root.findall('.//*')
if node.tag.endswith('ExitCode')).text)
return stdout, stderr, return_code, command_done