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Mini Shell
Mini Shell
import logging, binascii, time, hmac
from datetime import datetime
from smb_constants import *
from smb2_constants import *
from smb_structs import *
from smb2_structs import *
from .security_descriptors import SecurityDescriptor
from nmb.base import NMBSession
from utils import convertFILETIMEtoEpoch
import ntlm, securityblob
try:
import hashlib
sha256 = hashlib.sha256
except ImportError:
from utils import sha256
class NotReadyError(Exception):
"""Raised when SMB connection is not ready (i.e. not authenticated or authentication failed)"""
pass
class NotConnectedError(Exception):
"""Raised when underlying SMB connection has been disconnected or not connected yet"""
pass
class SMBTimeout(Exception):
"""Raised when a timeout has occurred while waiting for a response or for a SMB/CIFS operation to complete."""
pass
def _convert_to_unicode(string):
if not isinstance(string, unicode):
string = unicode(string, "utf-8")
return string
class SMB(NMBSession):
"""
This class represents a "connection" to the remote SMB/CIFS server.
It is not meant to be used directly in an application as it does not have any network transport implementations.
For application use, please refer to
- L{SMBProtocol.SMBProtocolFactory<smb.SMBProtocol>} if you are using Twisted framework
In [MS-CIFS], this class will contain attributes of Client, Client.Connection and Client.Session abstract data models.
References:
===========
- [MS-CIFS]: 3.2.1
"""
log = logging.getLogger('SMB.SMB')
SIGN_NEVER = 0
SIGN_WHEN_SUPPORTED = 1
SIGN_WHEN_REQUIRED = 2
def __init__(self, username, password, my_name, remote_name, domain = '', use_ntlm_v2 = True, sign_options = SIGN_WHEN_REQUIRED, is_direct_tcp = False):
NMBSession.__init__(self, my_name, remote_name, is_direct_tcp = is_direct_tcp)
self.username = _convert_to_unicode(username)
self._password = password
self.domain = _convert_to_unicode(domain)
self.sign_options = sign_options
self.is_direct_tcp = is_direct_tcp
self.use_ntlm_v2 = use_ntlm_v2 #: Similar to LMAuthenticationPolicy and NTAuthenticationPolicy as described in [MS-CIFS] 3.2.1.1
self.smb_message = SMBMessage()
self.is_using_smb2 = False #: Are we communicating using SMB2 protocol? self.smb_message will be a SMB2Message instance if this flag is True
self.async_requests = { } #: AsyncID mapped to _PendingRequest instance
self.pending_requests = { } #: MID mapped to _PendingRequest instance
self.connected_trees = { } #: Share name mapped to TID
self.next_rpc_call_id = 1 #: Next RPC callID value. Not used directly in SMB message. Usually encapsulated in sub-commands under SMB_COM_TRANSACTION or SMB_COM_TRANSACTION2 messages
self.has_negotiated = False
self.has_authenticated = False
self.is_signing_active = False #: True if the remote server accepts message signing. All outgoing messages will be signed. Simiar to IsSigningActive as described in [MS-CIFS] 3.2.1.2
self.signing_session_key = None #: Session key for signing packets, if signing is active. Similar to SigningSessionKey as described in [MS-CIFS] 3.2.1.2
self.signing_challenge_response = None #: Contains the challenge response for signing, if signing is active. Similar to SigningChallengeResponse as described in [MS-CIFS] 3.2.1.2
self.mid = 0
self.uid = 0
self.next_signing_id = 2 #: Similar to ClientNextSendSequenceNumber as described in [MS-CIFS] 3.2.1.2
# SMB1 and SMB2 attributes
# Note that the interpretations of the values may differ between SMB1 and SMB2 protocols
self.capabilities = 0
self.security_mode = 0 #: Initialized from the SecurityMode field of the SMB_COM_NEGOTIATE message
# SMB1 attributes
# Most of the following attributes will be initialized upon receipt of SMB_COM_NEGOTIATE message from server (via self._updateServerInfo_SMB1 method)
self.use_plaintext_authentication = False #: Similar to PlaintextAuthenticationPolicy in in [MS-CIFS] 3.2.1.1
self.max_raw_size = 0
self.max_buffer_size = 0 #: Similar to MaxBufferSize as described in [MS-CIFS] 3.2.1.1
self.max_mpx_count = 0 #: Similar to MaxMpxCount as described in [MS-CIFS] 3.2.1.1
# SMB2 attributes
self.max_read_size = 0 #: Similar to MaxReadSize as described in [MS-SMB2] 2.2.4
self.max_write_size = 0 #: Similar to MaxWriteSize as described in [MS-SMB2] 2.2.4
self.max_transact_size = 0 #: Similar to MaxTransactSize as described in [MS-SMB2] 2.2.4
self.session_id = 0 #: Similar to SessionID as described in [MS-SMB2] 2.2.4. This will be set in _updateState_SMB2 method
self._setupSMB1Methods()
self.log.info('Authentication with remote machine "%s" for user "%s" will be using NTLM %s authentication (%s extended security)',
self.remote_name, self.username,
(self.use_ntlm_v2 and 'v2') or 'v1',
(SUPPORT_EXTENDED_SECURITY and 'with') or 'without')
@property
def password(self):
password = self._password() if callable(self._password) else self._password
return _convert_to_unicode(password)
#
# NMBSession Methods
#
def onNMBSessionOK(self):
self._sendSMBMessage(SMBMessage(ComNegotiateRequest()))
def onNMBSessionFailed(self):
pass
def onNMBSessionMessage(self, flags, data):
while True:
try:
i = self.smb_message.decode(data)
except SMB2ProtocolHeaderError:
self.log.info('Now switching over to SMB2 protocol communication')
self.is_using_smb2 = True
self.mid = 0 # Must reset messageID counter, or else remote SMB2 server will disconnect
self._setupSMB2Methods()
self.smb_message = self._klassSMBMessage()
i = self.smb_message.decode(data)
next_message_offset = 0
if self.is_using_smb2:
next_message_offset = self.smb_message.next_command_offset
if i > 0:
if not self.is_using_smb2:
self.log.debug('Received SMB message "%s" (command:0x%2X flags:0x%02X flags2:0x%04X TID:%d UID:%d)',
SMB_COMMAND_NAMES.get(self.smb_message.command, '<unknown>'),
self.smb_message.command, self.smb_message.flags, self.smb_message.flags2, self.smb_message.tid, self.smb_message.uid)
else:
self.log.debug('Received SMB2 message "%s" (command:0x%04X flags:0x%04x)',
SMB2_COMMAND_NAMES.get(self.smb_message.command, '<unknown>'),
self.smb_message.command, self.smb_message.flags)
if self._updateState(self.smb_message):
# We need to create a new instance instead of calling reset() because the instance could be captured in the message history.
self.smb_message = self._klassSMBMessage()
if next_message_offset > 0:
data = data[next_message_offset:]
else:
break
#
# Public Methods for Overriding in Subclasses
#
def onAuthOK(self):
pass
def onAuthFailed(self):
pass
#
# Protected Methods
#
def _setupSMB1Methods(self):
self._klassSMBMessage = SMBMessage
self._updateState = self._updateState_SMB1
self._updateServerInfo = self._updateServerInfo_SMB1
self._handleNegotiateResponse = self._handleNegotiateResponse_SMB1
self._sendSMBMessage = self._sendSMBMessage_SMB1
self._handleSessionChallenge = self._handleSessionChallenge_SMB1
self._listShares = self._listShares_SMB1
self._listPath = self._listPath_SMB1
self._listSnapshots = self._listSnapshots_SMB1
self._getSecurity = self._getSecurity_SMB1
self._getAttributes = self._getAttributes_SMB1
self._retrieveFile = self._retrieveFile_SMB1
self._retrieveFileFromOffset = self._retrieveFileFromOffset_SMB1
self._storeFile = self._storeFile_SMB1
self._storeFileFromOffset = self._storeFileFromOffset_SMB1
self._deleteFiles = self._deleteFiles_SMB1
self._resetFileAttributes = self._resetFileAttributes_SMB1
self._createDirectory = self._createDirectory_SMB1
self._deleteDirectory = self._deleteDirectory_SMB1
self._rename = self._rename_SMB1
self._echo = self._echo_SMB1
def _setupSMB2Methods(self):
self._klassSMBMessage = SMB2Message
self._updateState = self._updateState_SMB2
self._updateServerInfo = self._updateServerInfo_SMB2
self._handleNegotiateResponse = self._handleNegotiateResponse_SMB2
self._sendSMBMessage = self._sendSMBMessage_SMB2
self._handleSessionChallenge = self._handleSessionChallenge_SMB2
self._listShares = self._listShares_SMB2
self._listPath = self._listPath_SMB2
self._listSnapshots = self._listSnapshots_SMB2
self._getAttributes = self._getAttributes_SMB2
self._getSecurity = self._getSecurity_SMB2
self._retrieveFile = self._retrieveFile_SMB2
self._retrieveFileFromOffset = self._retrieveFileFromOffset_SMB2
self._storeFile = self._storeFile_SMB2
self._storeFileFromOffset = self._storeFileFromOffset_SMB2
self._deleteFiles = self._deleteFiles_SMB2
self._resetFileAttributes = self._resetFileAttributes_SMB2
self._createDirectory = self._createDirectory_SMB2
self._deleteDirectory = self._deleteDirectory_SMB2
self._rename = self._rename_SMB2
self._echo = self._echo_SMB2
def _getNextRPCCallID(self):
self.next_rpc_call_id += 1
return self.next_rpc_call_id
#
# SMB2 Methods Family
#
def _sendSMBMessage_SMB2(self, smb_message):
if smb_message.mid == 0:
smb_message.mid = self._getNextMID_SMB2()
if smb_message.command != SMB2_COM_NEGOTIATE:
smb_message.session_id = self.session_id
if self.is_signing_active:
smb_message.flags |= SMB2_FLAGS_SIGNED
raw_data = smb_message.encode()
smb_message.signature = hmac.new(self.signing_session_key, raw_data, sha256).digest()[:16]
smb_message.raw_data = smb_message.encode()
self.log.debug('MID is %d. Signature is %s. Total raw message is %d bytes', smb_message.mid, binascii.hexlify(smb_message.signature), len(smb_message.raw_data))
else:
smb_message.raw_data = smb_message.encode()
self.sendNMBMessage(smb_message.raw_data)
def _getNextMID_SMB2(self):
self.mid += 1
return self.mid
def _updateState_SMB2(self, message):
if message.isReply:
if message.command == SMB2_COM_NEGOTIATE:
if message.status == 0:
self.has_negotiated = True
self.log.info('SMB2 dialect negotiation successful')
self._updateServerInfo(message.payload)
self._handleNegotiateResponse(message)
else:
raise ProtocolError('Unknown status value (0x%08X) in SMB2_COM_NEGOTIATE' % message.status,
message.raw_data, message)
elif message.command == SMB2_COM_SESSION_SETUP:
if message.status == 0:
self.session_id = message.session_id
try:
result = securityblob.decodeAuthResponseSecurityBlob(message.payload.security_blob)
if result == securityblob.RESULT_ACCEPT_COMPLETED:
self.has_authenticated = True
self.log.info('Authentication (on SMB2) successful!')
# [MS-SMB2]: 3.2.5.3.1
# If the security subsystem indicates that the session was established by an anonymous user,
# Session.SigningRequired MUST be set to FALSE.
# If the SMB2_SESSION_FLAG_IS_GUEST bit is set in the SessionFlags field of the
# SMB2 SESSION_SETUP Response and if Session.SigningRequired is TRUE, this indicates a SESSION_SETUP
# failure and the connection MUST be terminated. If the SMB2_SESSION_FLAG_IS_GUEST bit is set in the SessionFlags
# field of the SMB2 SESSION_SETUP Response and if RequireMessageSigning is FALSE, Session.SigningRequired
# MUST be set to FALSE.
if message.payload.isGuestSession or message.payload.isAnonymousSession:
self.is_signing_active = False
self.log.info('Signing disabled because session is guest/anonymous')
self.onAuthOK()
else:
raise ProtocolError('SMB2_COM_SESSION_SETUP status is 0 but security blob negResult value is %d' % result, message.raw_data, message)
except securityblob.BadSecurityBlobError, ex:
raise ProtocolError(str(ex), message.raw_data, message)
elif message.status == 0xc0000016: # STATUS_MORE_PROCESSING_REQUIRED
self.session_id = message.session_id
try:
result, ntlm_token = securityblob.decodeChallengeSecurityBlob(message.payload.security_blob)
if result == securityblob.RESULT_ACCEPT_INCOMPLETE:
self._handleSessionChallenge(message, ntlm_token)
except ( securityblob.BadSecurityBlobError, securityblob.UnsupportedSecurityProvider ), ex:
raise ProtocolError(str(ex), message.raw_data, message)
elif (message.status == 0xc000006d # STATUS_LOGON_FAILURE
or message.status == 0xc0000064 # STATUS_NO_SUCH_USER
or message.status == 0xc000006a):# STATUS_WRONG_PASSWORD
self.has_authenticated = False
self.log.info('Authentication (on SMB2) failed. Please check username and password.')
self.onAuthFailed()
elif (message.status == 0xc0000193 # STATUS_ACCOUNT_EXPIRED
or message.status == 0xC0000071): # STATUS_PASSWORD_EXPIRED
self.has_authenticated = False
self.log.info('Authentication (on SMB2) failed. Account or password has expired.')
self.onAuthFailed()
elif message.status == 0xc0000234: # STATUS_ACCOUNT_LOCKED_OUT
self.has_authenticated = False
self.log.info('Authentication (on SMB2) failed. Account has been locked due to too many invalid logon attempts.')
self.onAuthFailed()
elif message.status == 0xc0000072: # STATUS_ACCOUNT_DISABLED
self.has_authenticated = False
self.log.info('Authentication (on SMB2) failed. Account has been disabled.')
self.onAuthFailed()
elif (message.status == 0xc000006f # STATUS_INVALID_LOGON_HOURS
or message.status == 0xc000015b # STATUS_LOGON_TYPE_NOT_GRANTED
or message.status == 0xc0000070): # STATUS_INVALID_WORKSTATION
self.has_authenticated = False
self.log.info('Authentication (on SMB2) failed. Not allowed.')
self.onAuthFailed()
elif message.status == 0xc000018c: # STATUS_TRUSTED_DOMAIN_FAILURE
self.has_authenticated = False
self.log.info('Authentication (on SMB2) failed. Domain not trusted.')
self.onAuthFailed()
elif message.status == 0xc000018d: # STATUS_TRUSTED_RELATIONSHIP_FAILURE
self.has_authenticated = False
self.log.info('Authentication (on SMB2) failed. Workstation not trusted.')
self.onAuthFailed()
else:
raise ProtocolError('Unknown status value (0x%08X) in SMB_COM_SESSION_SETUP_ANDX (with extended security)' % message.status,
message.raw_data, message)
if message.isAsync:
if message.status == 0x00000103: # STATUS_PENDING
req = self.pending_requests.pop(message.mid, None)
if req:
self.async_requests[message.async_id] = req
else: # All other status including SUCCESS
req = self.async_requests.pop(message.async_id, None)
if req:
req.callback(message, **req.kwargs)
return True
else:
req = self.pending_requests.pop(message.mid, None)
if req:
req.callback(message, **req.kwargs)
return True
def _updateServerInfo_SMB2(self, payload):
self.capabilities = payload.capabilities
self.security_mode = payload.security_mode
self.max_transact_size = payload.max_transact_size
self.max_read_size = payload.max_read_size
self.max_write_size = payload.max_write_size
self.use_plaintext_authentication = False # SMB2 never allows plaintext authentication
def _handleNegotiateResponse_SMB2(self, message):
ntlm_data = ntlm.generateNegotiateMessage()
blob = securityblob.generateNegotiateSecurityBlob(ntlm_data)
self._sendSMBMessage(SMB2Message(SMB2SessionSetupRequest(blob)))
def _handleSessionChallenge_SMB2(self, message, ntlm_token):
server_challenge, server_flags, server_info = ntlm.decodeChallengeMessage(ntlm_token)
self.log.info('Performing NTLMv2 authentication (on SMB2) with server challenge "%s"', binascii.hexlify(server_challenge))
if self.use_ntlm_v2:
self.log.info('Performing NTLMv2 authentication (on SMB2) with server challenge "%s"', binascii.hexlify(server_challenge))
nt_challenge_response, lm_challenge_response, session_key = ntlm.generateChallengeResponseV2(self.password,
self.username,
server_challenge,
server_info,
self.domain)
else:
self.log.info('Performing NTLMv1 authentication (on SMB2) with server challenge "%s"', binascii.hexlify(server_challenge))
nt_challenge_response, lm_challenge_response, session_key = ntlm.generateChallengeResponseV1(self.password, server_challenge, True)
ntlm_data = ntlm.generateAuthenticateMessage(server_flags,
nt_challenge_response,
lm_challenge_response,
session_key,
self.username,
self.domain,
self.my_name)
if self.log.isEnabledFor(logging.DEBUG):
self.log.debug('NT challenge response is "%s" (%d bytes)', binascii.hexlify(nt_challenge_response), len(nt_challenge_response))
self.log.debug('LM challenge response is "%s" (%d bytes)', binascii.hexlify(lm_challenge_response), len(lm_challenge_response))
blob = securityblob.generateAuthSecurityBlob(ntlm_data)
self._sendSMBMessage(SMB2Message(SMB2SessionSetupRequest(blob)))
if self.security_mode & SMB2_NEGOTIATE_SIGNING_REQUIRED:
self.log.info('Server requires all SMB messages to be signed')
self.is_signing_active = (self.sign_options != SMB.SIGN_NEVER)
elif self.security_mode & SMB2_NEGOTIATE_SIGNING_ENABLED:
self.log.info('Server supports SMB signing')
self.is_signing_active = (self.sign_options == SMB.SIGN_WHEN_SUPPORTED)
else:
self.is_signing_active = False
if self.is_signing_active:
self.log.info("SMB signing activated. All SMB messages will be signed.")
self.signing_session_key = (session_key + '\0'*16)[:16]
if self.capabilities & CAP_EXTENDED_SECURITY:
self.signing_challenge_response = None
else:
self.signing_challenge_response = blob
else:
self.log.info("SMB signing deactivated. SMB messages will NOT be signed.")
def _listShares_SMB2(self, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = 'IPC$'
messages_history = [ ]
def connectSrvSvc(tid):
m = SMB2Message(SMB2CreateRequest('srvsvc',
file_attributes = 0,
access_mask = FILE_READ_DATA | FILE_WRITE_DATA | FILE_APPEND_DATA | FILE_READ_EA | FILE_WRITE_EA | READ_CONTROL | FILE_READ_ATTRIBUTES | FILE_WRITE_ATTRIBUTES | SYNCHRONIZE,
share_access = FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE,
oplock = SMB2_OPLOCK_LEVEL_NONE,
impersonation = SEC_IMPERSONATE,
create_options = FILE_NON_DIRECTORY_FILE | FILE_OPEN_NO_RECALL,
create_disp = FILE_OPEN))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectSrvSvcCB, errback, tid = tid)
messages_history.append(m)
def connectSrvSvcCB(create_message, **kwargs):
messages_history.append(create_message)
if create_message.status == 0:
call_id = self._getNextRPCCallID()
# The data_bytes are binding call to Server Service RPC using DCE v1.1 RPC over SMB. See [MS-SRVS] and [C706]
# If you wish to understand the meanings of the byte stream, I would suggest you use a recent version of WireShark to packet capture the stream
data_bytes = \
binascii.unhexlify("""05 00 0b 03 10 00 00 00 74 00 00 00""".replace(' ', '')) + \
struct.pack('<I', call_id) + \
binascii.unhexlify("""
b8 10 b8 10 00 00 00 00 02 00 00 00 00 00 01 00
c8 4f 32 4b 70 16 d3 01 12 78 5a 47 bf 6e e1 88
03 00 00 00 04 5d 88 8a eb 1c c9 11 9f e8 08 00
2b 10 48 60 02 00 00 00 01 00 01 00 c8 4f 32 4b
70 16 d3 01 12 78 5a 47 bf 6e e1 88 03 00 00 00
2c 1c b7 6c 12 98 40 45 03 00 00 00 00 00 00 00
01 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMB2Message(SMB2WriteRequest(create_message.payload.fid, data_bytes, 0))
m.tid = kwargs['tid']
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, rpcBindCB, errback, tid = kwargs['tid'], fid = create_message.payload.fid)
messages_history.append(m)
else:
errback(OperationFailure('Failed to list shares: Unable to locate Server Service RPC endpoint', messages_history))
def rpcBindCB(trans_message, **kwargs):
messages_history.append(trans_message)
if trans_message.status == 0:
m = SMB2Message(SMB2ReadRequest(kwargs['fid'], read_len = 1024, read_offset = 0))
m.tid = kwargs['tid']
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, rpcReadCB, errback, tid = kwargs['tid'], fid = kwargs['fid'])
messages_history.append(m)
else:
closeFid(kwargs['tid'], kwargs['fid'], error = 'Failed to list shares: Unable to read from Server Service RPC endpoint')
def rpcReadCB(read_message, **kwargs):
messages_history.append(read_message)
if read_message.status == 0:
call_id = self._getNextRPCCallID()
padding = ''
remote_name = '\\\\' + self.remote_name
server_len = len(remote_name) + 1
server_bytes_len = server_len * 2
if server_len % 2 != 0:
padding = '\0\0'
server_bytes_len += 2
# The data bytes are the RPC call to NetrShareEnum (Opnum 15) at Server Service RPC.
# If you wish to understand the meanings of the byte stream, I would suggest you use a recent version of WireShark to packet capture the stream
data_bytes = \
binascii.unhexlify("""05 00 00 03 10 00 00 00""".replace(' ', '')) + \
struct.pack('<HHI', 72+server_bytes_len, 0, call_id) + \
binascii.unhexlify("""4c 00 00 00 00 00 0f 00 00 00 02 00""".replace(' ', '')) + \
struct.pack('<III', server_len, 0, server_len) + \
(remote_name + '\0').encode('UTF-16LE') + padding + \
binascii.unhexlify("""
01 00 00 00 01 00 00 00 04 00 02 00 00 00 00 00
00 00 00 00 ff ff ff ff 08 00 02 00 00 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMB2Message(SMB2IoctlRequest(kwargs['fid'], 0x0011C017, flags = 0x01, max_out_size = 8196, in_data = data_bytes))
m.tid = kwargs['tid']
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, listShareResultsCB, errback, tid = kwargs['tid'], fid = kwargs['fid'])
messages_history.append(m)
else:
closeFid(kwargs['tid'], kwargs['fid'], error = 'Failed to list shares: Unable to bind to Server Service RPC endpoint')
def listShareResultsCB(result_message, **kwargs):
messages_history.append(result_message)
if result_message.status == 0:
# The payload.data_bytes will contain the results of the RPC call to NetrShareEnum (Opnum 15) at Server Service RPC.
data_bytes = result_message.payload.out_data
if ord(data_bytes[3]) & 0x02 == 0:
sendReadRequest(kwargs['tid'], kwargs['fid'], data_bytes)
else:
decodeResults(kwargs['tid'], kwargs['fid'], data_bytes)
else:
closeFid(kwargs['tid'], kwargs['fid'])
errback(OperationFailure('Failed to list shares: Unable to retrieve shared device list', messages_history))
def decodeResults(tid, fid, data_bytes):
shares_count = struct.unpack('<I', data_bytes[36:40])[0]
results = [ ] # A list of SharedDevice instances
offset = 36 + 12 # You need to study the byte stream to understand the meaning of these constants
for i in range(0, shares_count):
results.append(SharedDevice(struct.unpack('<I', data_bytes[offset+4:offset+8])[0], None, None))
offset += 12
for i in range(0, shares_count):
max_length, _, length = struct.unpack('<III', data_bytes[offset:offset+12])
offset += 12
results[i].name = unicode(data_bytes[offset:offset+length*2-2], 'UTF-16LE')
if length % 2 != 0:
offset += (length * 2 + 2)
else:
offset += (length * 2)
max_length, _, length = struct.unpack('<III', data_bytes[offset:offset+12])
offset += 12
results[i].comments = unicode(data_bytes[offset:offset+length*2-2], 'UTF-16LE')
if length % 2 != 0:
offset += (length * 2 + 2)
else:
offset += (length * 2)
closeFid(tid, fid)
callback(results)
def sendReadRequest(tid, fid, data_bytes):
read_count = min(4280, self.max_read_size)
m = SMB2Message(SMB2ReadRequest(fid, 0, read_count))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, readCB, errback,
tid = tid, fid = fid, data_bytes = data_bytes)
def readCB(read_message, **kwargs):
messages_history.append(read_message)
if read_message.status == 0:
data_bytes = read_message.payload.data
if ord(data_bytes[3]) & 0x02 == 0:
sendReadRequest(kwargs['tid'], kwargs['fid'], kwargs['data_bytes'] + data_bytes[24:])
else:
decodeResults(kwargs['tid'], kwargs['fid'], kwargs['data_bytes'] + data_bytes[24:])
else:
closeFid(kwargs['tid'], kwargs['fid'])
errback(OperationFailure('Failed to list shares: Unable to retrieve shared device list', messages_history))
def closeFid(tid, fid, results = None, error = None):
m = SMB2Message(SMB2CloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, closeCB, errback, results = results, error = error)
messages_history.append(m)
def closeCB(close_message, **kwargs):
if kwargs['results'] is not None:
callback(kwargs['results'])
elif kwargs['error'] is not None:
errback(OperationFailure(kwargs['error'], messages_history))
if not self.connected_trees.has_key(path):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if connect_message.status == 0:
self.connected_trees[path] = connect_message.tid
connectSrvSvc(connect_message.tid)
else:
errback(OperationFailure('Failed to list shares: Unable to connect to IPC$', messages_history))
m = SMB2Message(SMB2TreeConnectRequest(r'\\%s\%s' % ( self.remote_name.upper(), path )))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = path)
messages_history.append(m)
else:
connectSrvSvc(self.connected_trees[path])
def _listPath_SMB2(self, service_name, path, callback, errback, search, pattern, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path.replace('/', '\\')
if path.startswith('\\'):
path = path[1:]
if path.endswith('\\'):
path = path[:-1]
messages_history = [ ]
results = [ ]
def sendCreate(tid):
create_context_data = binascii.unhexlify("""
28 00 00 00 10 00 04 00 00 00 18 00 10 00 00 00
44 48 6e 51 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 18 00 00 00 10 00 04 00
00 00 18 00 00 00 00 00 4d 78 41 63 00 00 00 00
00 00 00 00 10 00 04 00 00 00 18 00 00 00 00 00
51 46 69 64 00 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMB2Message(SMB2CreateRequest(path,
file_attributes = 0,
access_mask = FILE_READ_DATA | FILE_READ_EA | FILE_READ_ATTRIBUTES | SYNCHRONIZE,
share_access = FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE,
oplock = SMB2_OPLOCK_LEVEL_NONE,
impersonation = SEC_IMPERSONATE,
create_options = FILE_DIRECTORY_FILE,
create_disp = FILE_OPEN,
create_context_data = create_context_data))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, createCB, errback, tid = tid)
messages_history.append(m)
def createCB(create_message, **kwargs):
messages_history.append(create_message)
if create_message.status == 0:
sendQuery(kwargs['tid'], create_message.payload.fid, '')
else:
errback(OperationFailure('Failed to list %s on %s: Unable to open directory' % ( path, service_name ), messages_history))
def sendQuery(tid, fid, data_buf):
m = SMB2Message(SMB2QueryDirectoryRequest(fid, pattern,
info_class = 0x25, # FileIdBothDirectoryInformation
flags = 0,
output_buf_len = self.max_transact_size))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, queryCB, errback, tid = tid, fid = fid, data_buf = data_buf)
messages_history.append(m)
def queryCB(query_message, **kwargs):
messages_history.append(query_message)
if query_message.status == 0:
data_buf = decodeQueryStruct(kwargs['data_buf'] + query_message.payload.data)
sendQuery(kwargs['tid'], kwargs['fid'], data_buf)
elif query_message.status == 0x80000006L: # STATUS_NO_MORE_FILES
closeFid(kwargs['tid'], kwargs['fid'], results = results)
else:
closeFid(kwargs['tid'], kwargs['fid'], error = query_message.status)
def decodeQueryStruct(data_bytes):
# FileIdBothDirectoryInformation structure. See [MS-SMB]: 2.2.8.1.3 and [MS-FSCC]: 2.4.17
info_format = '<IIQQQQQQIIIBB24sHQ'
info_size = struct.calcsize(info_format)
data_length = len(data_bytes)
offset = 0
while offset < data_length:
if offset + info_size > data_length:
return data_bytes[offset:]
next_offset, _, \
create_time, last_access_time, last_write_time, last_attr_change_time, \
file_size, alloc_size, file_attributes, filename_length, ea_size, \
short_name_length, _, short_name, _, file_id = struct.unpack(info_format, data_bytes[offset:offset+info_size])
offset2 = offset + info_size
if offset2 + filename_length > data_length:
return data_bytes[offset:]
filename = data_bytes[offset2:offset2+filename_length].decode('UTF-16LE')
short_name = short_name[:short_name_length].decode('UTF-16LE')
accept_result = False
if (file_attributes & 0xff) in ( 0x00, ATTR_NORMAL ): # Only the first 8-bits are compared. We ignore other bits like temp, compressed, encryption, sparse, indexed, etc
accept_result = (search == SMB_FILE_ATTRIBUTE_NORMAL) or (search & SMB_FILE_ATTRIBUTE_INCL_NORMAL)
else:
accept_result = (file_attributes & search) > 0
if accept_result:
results.append(SharedFile(convertFILETIMEtoEpoch(create_time), convertFILETIMEtoEpoch(last_access_time),
convertFILETIMEtoEpoch(last_write_time), convertFILETIMEtoEpoch(last_attr_change_time),
file_size, alloc_size, file_attributes, short_name, filename, file_id))
if next_offset:
offset += next_offset
else:
break
return ''
def closeFid(tid, fid, results = None, error = None):
m = SMB2Message(SMB2CloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, closeCB, errback, results = results, error = error)
messages_history.append(m)
def closeCB(close_message, **kwargs):
if kwargs['results'] is not None:
callback(kwargs['results'])
elif kwargs['error'] is not None:
if kwargs['error'] == 0xC000000F: # [MS-ERREF]: STATUS_NO_SUCH_FILE
# Remote server returns STATUS_NO_SUCH_FILE error so we assume that the search returns no matching files
callback([ ])
else:
errback(OperationFailure('Failed to list %s on %s: Query failed with errorcode 0x%08x' % ( path, service_name, kwargs['error'] ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if connect_message.status == 0:
self.connected_trees[service_name] = connect_message.tid
sendCreate(connect_message.tid)
else:
errback(OperationFailure('Failed to list %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMB2Message(SMB2TreeConnectRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name )))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendCreate(self.connected_trees[service_name])
def _getAttributes_SMB2(self, service_name, path, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path.replace('/', '\\')
if path.startswith('\\'):
path = path[1:]
if path.endswith('\\'):
path = path[:-1]
messages_history = [ ]
def sendCreate(tid):
create_context_data = binascii.unhexlify("""
28 00 00 00 10 00 04 00 00 00 18 00 10 00 00 00
44 48 6e 51 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 18 00 00 00 10 00 04 00
00 00 18 00 00 00 00 00 4d 78 41 63 00 00 00 00
00 00 00 00 10 00 04 00 00 00 18 00 00 00 00 00
51 46 69 64 00 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMB2Message(SMB2CreateRequest(path,
file_attributes = 0,
access_mask = FILE_READ_DATA | FILE_READ_EA | FILE_READ_ATTRIBUTES | SYNCHRONIZE,
share_access = FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE,
oplock = SMB2_OPLOCK_LEVEL_NONE,
impersonation = SEC_IMPERSONATE,
create_options = 0,
create_disp = FILE_OPEN,
create_context_data = create_context_data))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, createCB, errback, tid = tid)
messages_history.append(m)
def createCB(create_message, **kwargs):
messages_history.append(create_message)
if create_message.status == 0:
p = create_message.payload
filename = self._extractLastPathComponent(unicode(path))
info = SharedFile(p.create_time, p.lastaccess_time, p.lastwrite_time, p.change_time,
p.file_size, p.allocation_size, p.file_attributes,
filename, filename)
closeFid(kwargs['tid'], p.fid, info = info)
else:
errback(OperationFailure('Failed to get attributes for %s on %s: Unable to open remote file object' % ( path, service_name ), messages_history))
def closeFid(tid, fid, info = None, error = None):
m = SMB2Message(SMB2CloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, closeCB, errback, info = info, error = error)
messages_history.append(m)
def closeCB(close_message, **kwargs):
if kwargs['info'] is not None:
callback(kwargs['info'])
elif kwargs['error'] is not None:
errback(OperationFailure('Failed to get attributes for %s on %s: Query failed with errorcode 0x%08x' % ( path, service_name, kwargs['error'] ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if connect_message.status == 0:
self.connected_trees[service_name] = connect_message.tid
sendCreate(connect_message.tid)
else:
errback(OperationFailure('Failed to get attributes for %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMB2Message(SMB2TreeConnectRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name )))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendCreate(self.connected_trees[service_name])
def _getSecurity_SMB2(self, service_name, path, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path.replace('/', '\\')
if path.startswith('\\'):
path = path[1:]
if path.endswith('\\'):
path = path[:-1]
messages_history = [ ]
results = [ ]
def sendCreate(tid):
m = SMB2Message(SMB2CreateRequest(path,
file_attributes = 0,
access_mask = FILE_READ_DATA | FILE_READ_EA | FILE_READ_ATTRIBUTES | READ_CONTROL | SYNCHRONIZE,
share_access = FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE,
oplock = SMB2_OPLOCK_LEVEL_NONE,
impersonation = SEC_IMPERSONATE,
create_options = 0,
create_disp = FILE_OPEN))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, createCB, errback, tid = tid)
messages_history.append(m)
def createCB(create_message, **kwargs):
messages_history.append(create_message)
if create_message.status == 0:
m = SMB2Message(SMB2QueryInfoRequest(create_message.payload.fid,
flags = 0,
additional_info = OWNER_SECURITY_INFORMATION | GROUP_SECURITY_INFORMATION | DACL_SECURITY_INFORMATION,
info_type = SMB2_INFO_SECURITY,
file_info_class = 0, # [MS-SMB2] 2.2.37, 3.2.4.12
input_buf = '',
output_buf_len = self.max_transact_size))
m.tid = kwargs['tid']
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, queryCB, errback, tid = kwargs['tid'], fid = create_message.payload.fid)
messages_history.append(m)
else:
errback(OperationFailure('Failed to get the security descriptor of %s on %s: Unable to open file or directory' % ( path, service_name ), messages_history))
def queryCB(query_message, **kwargs):
messages_history.append(query_message)
if query_message.status == 0:
security = SecurityDescriptor.from_bytes(query_message.payload.data)
closeFid(kwargs['tid'], kwargs['fid'], result = security)
else:
closeFid(kwargs['tid'], kwargs['fid'], error = query_message.status)
def closeFid(tid, fid, result = None, error = None):
m = SMB2Message(SMB2CloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, closeCB, errback, result = result, error = error)
messages_history.append(m)
def closeCB(close_message, **kwargs):
if kwargs['result'] is not None:
callback(kwargs['result'])
elif kwargs['error'] is not None:
errback(OperationFailure('Failed to get the security descriptor of %s on %s: Query failed with errorcode 0x%08x' % ( path, service_name, kwargs['error'] ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if connect_message.status == 0:
self.connected_trees[service_name] = connect_message.tid
sendCreate(connect_message.tid)
else:
errback(OperationFailure('Failed to get the security descriptor of %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMB2Message(SMB2TreeConnectRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name )))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendCreate(self.connected_trees[service_name])
def _retrieveFile_SMB2(self, service_name, path, file_obj, callback, errback, timeout = 30):
return self._retrieveFileFromOffset(service_name, path, file_obj, callback, errback, 0L, -1L, timeout)
def _retrieveFileFromOffset_SMB2(self, service_name, path, file_obj, callback, errback, starting_offset, max_length, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path.replace('/', '\\')
if path.startswith('\\'):
path = path[1:]
if path.endswith('\\'):
path = path[:-1]
messages_history = [ ]
results = [ ]
def sendCreate(tid):
create_context_data = binascii.unhexlify("""
28 00 00 00 10 00 04 00 00 00 18 00 10 00 00 00
44 48 6e 51 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 18 00 00 00 10 00 04 00
00 00 18 00 00 00 00 00 4d 78 41 63 00 00 00 00
00 00 00 00 10 00 04 00 00 00 18 00 00 00 00 00
51 46 69 64 00 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMB2Message(SMB2CreateRequest(path,
file_attributes = 0,
access_mask = FILE_READ_DATA | FILE_READ_EA | FILE_READ_ATTRIBUTES | READ_CONTROL | SYNCHRONIZE,
share_access = FILE_SHARE_READ | FILE_SHARE_WRITE,
oplock = SMB2_OPLOCK_LEVEL_NONE,
impersonation = SEC_IMPERSONATE,
create_options = FILE_SEQUENTIAL_ONLY | FILE_NON_DIRECTORY_FILE,
create_disp = FILE_OPEN,
create_context_data = create_context_data))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, createCB, errback, tid = tid)
messages_history.append(m)
def createCB(create_message, **kwargs):
messages_history.append(create_message)
if create_message.status == 0:
m = SMB2Message(SMB2QueryInfoRequest(create_message.payload.fid,
flags = 0,
additional_info = 0,
info_type = SMB2_INFO_FILE,
file_info_class = 0x16, # FileStreamInformation [MS-FSCC] 2.4
input_buf = '',
output_buf_len = 4096))
m.tid = kwargs['tid']
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, infoCB, errback,
tid = kwargs['tid'],
fid = create_message.payload.fid,
file_attributes = create_message.payload.file_attributes)
messages_history.append(m)
else:
errback(OperationFailure('Failed to retrieve %s on %s: Unable to open file' % ( path, service_name ), messages_history))
def infoCB(info_message, **kwargs):
messages_history.append(info_message)
if info_message.status == 0:
file_len = struct.unpack('<Q', info_message.payload.data[8:16])[0]
if max_length == 0 or starting_offset > file_len:
closeFid(info_message.tid, kwargs['fid'])
callback(( file_obj, kwargs['file_attributes'], 0 )) # Note that this is a tuple of 3-elements
else:
remaining_len = max_length
if remaining_len < 0:
remaining_len = file_len
if starting_offset + remaining_len > file_len:
remaining_len = file_len - starting_offset
sendRead(kwargs['tid'], kwargs['fid'], starting_offset, remaining_len, 0, kwargs['file_attributes'])
else:
errback(OperationFailure('Failed to retrieve %s on %s: Unable to retrieve information on file' % ( path, service_name ), messages_history))
def sendRead(tid, fid, offset, remaining_len, read_len, file_attributes):
read_count = min(self.max_read_size, remaining_len)
m = SMB2Message(SMB2ReadRequest(fid, offset, read_count))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, readCB, errback,
tid = tid, fid = fid, offset = offset,
remaining_len = remaining_len,
read_len = read_len,
file_attributes = file_attributes)
def readCB(read_message, **kwargs):
# To avoid crazy memory usage when retrieving large files, we do not save every read_message in messages_history.
if read_message.status == 0:
data_len = read_message.payload.data_length
file_obj.write(read_message.payload.data)
remaining_len = kwargs['remaining_len'] - data_len
if remaining_len > 0:
sendRead(kwargs['tid'], kwargs['fid'], kwargs['offset'] + data_len, remaining_len, kwargs['read_len'] + data_len, kwargs['file_attributes'])
else:
closeFid(kwargs['tid'], kwargs['fid'], ret = ( file_obj, kwargs['file_attributes'], kwargs['read_len'] + data_len ))
else:
messages_history.append(read_message)
closeFid(kwargs['tid'], kwargs['fid'], error = read_message.status)
def closeFid(tid, fid, ret = None, error = None):
m = SMB2Message(SMB2CloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, closeCB, errback, ret = ret, error = error)
messages_history.append(m)
def closeCB(close_message, **kwargs):
if kwargs['ret'] is not None:
callback(kwargs['ret'])
elif kwargs['error'] is not None:
errback(OperationFailure('Failed to retrieve %s on %s: Read failed' % ( path, service_name ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if connect_message.status == 0:
self.connected_trees[service_name] = connect_message.tid
sendCreate(connect_message.tid)
else:
errback(OperationFailure('Failed to retrieve %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMB2Message(SMB2TreeConnectRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name )))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendCreate(self.connected_trees[service_name])
def _storeFile_SMB2(self, service_name, path, file_obj, callback, errback, timeout = 30):
self._storeFileFromOffset_SMB2(service_name, path, file_obj, callback, errback, 0L, True, timeout)
def _storeFileFromOffset_SMB2(self, service_name, path, file_obj, callback, errback, starting_offset, truncate = False, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path.replace('/', '\\')
if path.startswith('\\'):
path = path[1:]
if path.endswith('\\'):
path = path[:-1]
messages_history = [ ]
def sendCreate(tid):
create_context_data = binascii.unhexlify("""
28 00 00 00 10 00 04 00 00 00 18 00 10 00 00 00
44 48 6e 51 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 20 00 00 00 10 00 04 00
00 00 18 00 08 00 00 00 41 6c 53 69 00 00 00 00
85 62 00 00 00 00 00 00 18 00 00 00 10 00 04 00
00 00 18 00 00 00 00 00 4d 78 41 63 00 00 00 00
00 00 00 00 10 00 04 00 00 00 18 00 00 00 00 00
51 46 69 64 00 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMB2Message(SMB2CreateRequest(path,
file_attributes = ATTR_ARCHIVE,
access_mask = FILE_READ_DATA | FILE_WRITE_DATA | FILE_APPEND_DATA | FILE_READ_ATTRIBUTES | FILE_WRITE_ATTRIBUTES | FILE_READ_EA | FILE_WRITE_EA | READ_CONTROL | SYNCHRONIZE,
share_access = 0,
oplock = SMB2_OPLOCK_LEVEL_NONE,
impersonation = SEC_IMPERSONATE,
create_options = FILE_SEQUENTIAL_ONLY | FILE_NON_DIRECTORY_FILE,
create_disp = FILE_OVERWRITE_IF if truncate else FILE_OPEN_IF,
create_context_data = create_context_data))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, createCB, errback, tid = tid)
messages_history.append(m)
def createCB(create_message, **kwargs):
create_message.tid = kwargs['tid']
messages_history.append(create_message)
if create_message.status == 0:
sendWrite(create_message.tid, create_message.payload.fid, starting_offset)
else:
errback(OperationFailure('Failed to store %s on %s: Unable to open file' % ( path, service_name ), messages_history))
def sendWrite(tid, fid, offset):
write_count = self.max_write_size
data = file_obj.read(write_count)
data_len = len(data)
if data_len > 0:
m = SMB2Message(SMB2WriteRequest(fid, data, offset))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, writeCB, errback, tid = tid, fid = fid, offset = offset+data_len)
else:
closeFid(tid, fid, offset = offset)
def writeCB(write_message, **kwargs):
# To avoid crazy memory usage when saving large files, we do not save every write_message in messages_history.
if write_message.status == 0:
sendWrite(kwargs['tid'], kwargs['fid'], kwargs['offset'])
else:
messages_history.append(write_message)
closeFid(kwargs['tid'], kwargs['fid'])
errback(OperationFailure('Failed to store %s on %s: Write failed' % ( path, service_name ), messages_history))
def closeFid(tid, fid, error = None, offset = None):
m = SMB2Message(SMB2CloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, closeCB, errback, fid = fid, offset = offset, error = error)
messages_history.append(m)
def closeCB(close_message, **kwargs):
if kwargs['offset'] is not None:
callback(( file_obj, kwargs['offset'] )) # Note that this is a tuple of 2-elements
elif kwargs['error'] is not None:
errback(OperationFailure('Failed to store %s on %s: Write failed' % ( path, service_name ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if connect_message.status == 0:
self.connected_trees[service_name] = connect_message.tid
sendCreate(connect_message.tid)
else:
errback(OperationFailure('Failed to store %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMB2Message(SMB2TreeConnectRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name )))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendCreate(self.connected_trees[service_name])
def _deleteFiles_SMB2(self, service_name, path_file_pattern, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path_file_pattern.replace('/', '\\')
if path.startswith('\\'):
path = path[1:]
if path.endswith('\\'):
path = path[:-1]
messages_history = [ ]
def sendCreate(tid):
create_context_data = binascii.unhexlify("""
28 00 00 00 10 00 04 00 00 00 18 00 10 00 00 00
44 48 6e 51 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 18 00 00 00 10 00 04 00
00 00 18 00 00 00 00 00 4d 78 41 63 00 00 00 00
00 00 00 00 10 00 04 00 00 00 18 00 00 00 00 00
51 46 69 64 00 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMB2Message(SMB2CreateRequest(path,
file_attributes = 0,
access_mask = DELETE | FILE_READ_ATTRIBUTES,
share_access = FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE,
oplock = SMB2_OPLOCK_LEVEL_NONE,
impersonation = SEC_IMPERSONATE,
create_options = FILE_NON_DIRECTORY_FILE,
create_disp = FILE_OPEN,
create_context_data = create_context_data))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, createCB, errback, tid = tid)
messages_history.append(m)
def createCB(open_message, **kwargs):
open_message.tid = kwargs['tid']
messages_history.append(open_message)
if open_message.status == 0:
sendDelete(open_message.tid, open_message.payload.fid)
else:
errback(OperationFailure('Failed to delete %s on %s: Unable to open file' % ( path, service_name ), messages_history))
def sendDelete(tid, fid):
m = SMB2Message(SMB2SetInfoRequest(fid,
additional_info = 0,
info_type = SMB2_INFO_FILE,
file_info_class = 0x0d, # SMB2_FILE_DISPOSITION_INFO
data = '\x01'))
# [MS-SMB2]: 2.2.39, [MS-FSCC]: 2.4.11
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, deleteCB, errback, tid = tid, fid = fid)
messages_history.append(m)
def deleteCB(delete_message, **kwargs):
messages_history.append(delete_message)
if delete_message.status == 0:
closeFid(kwargs['tid'], kwargs['fid'], status = 0)
else:
closeFid(kwargs['tid'], kwargs['fid'], status = delete_message.status)
def closeFid(tid, fid, status = None):
m = SMB2Message(SMB2CloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, closeCB, errback, status = status)
messages_history.append(m)
def closeCB(close_message, **kwargs):
if kwargs['status'] == 0:
callback(path_file_pattern)
else:
errback(OperationFailure('Failed to delete %s on %s: Delete failed' % ( path, service_name ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if connect_message.status == 0:
self.connected_trees[service_name] = connect_message.tid
sendCreate(connect_message.tid)
else:
errback(OperationFailure('Failed to delete %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMB2Message(SMB2TreeConnectRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name )))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendCreate(self.connected_trees[service_name])
def _resetFileAttributes_SMB2(self, service_name, path_file_pattern, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path_file_pattern.replace('/', '\\')
if path.startswith('\\'):
path = path[1:]
if path.endswith('\\'):
path = path[:-1]
messages_history = [ ]
def sendCreate(tid):
create_context_data = binascii.unhexlify("""
28 00 00 00 10 00 04 00 00 00 18 00 10 00 00 00
44 48 6e 51 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 18 00 00 00 10 00 04 00
00 00 18 00 00 00 00 00 4d 78 41 63 00 00 00 00
00 00 00 00 10 00 04 00 00 00 18 00 00 00 00 00
51 46 69 64 00 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMB2Message(SMB2CreateRequest(path,
file_attributes = 0,
access_mask = FILE_WRITE_ATTRIBUTES,
share_access = FILE_SHARE_READ | FILE_SHARE_WRITE,
oplock = SMB2_OPLOCK_LEVEL_NONE,
impersonation = SEC_IMPERSONATE,
create_options = 0,
create_disp = FILE_OPEN,
create_context_data = create_context_data))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, createCB, errback, tid = tid)
messages_history.append(m)
def createCB(open_message, **kwargs):
messages_history.append(open_message)
if open_message.status == 0:
sendReset(kwargs['tid'], open_message.payload.fid)
else:
errback(OperationFailure('Failed to reset attributes of %s on %s: Unable to open file' % ( path, service_name ), messages_history))
def sendReset(tid, fid):
m = SMB2Message(SMB2SetInfoRequest(fid,
additional_info = 0,
info_type = SMB2_INFO_FILE,
file_info_class = 4, # FileBasicInformation
data = struct.pack('qqqqii',0,0,0,0,0x80,0))) # FILE_ATTRIBUTE_NORMAL
# [MS-SMB2]: 2.2.39, [MS-FSCC]: 2.4, [MS-FSCC]: 2.4.7, [MS-FSCC]: 2.6
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, resetCB, errback, tid = tid, fid = fid)
messages_history.append(m)
def resetCB(reset_message, **kwargs):
messages_history.append(reset_message)
if reset_message.status == 0:
closeFid(kwargs['tid'], kwargs['fid'], status = 0)
else:
closeFid(kwargs['tid'], kwargs['fid'], status = reset_message.status)
def closeFid(tid, fid, status = None):
m = SMB2Message(SMB2CloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, closeCB, errback, status = status)
messages_history.append(m)
def closeCB(close_message, **kwargs):
if kwargs['status'] == 0:
callback(path_file_pattern)
else:
errback(OperationFailure('Failed to reset attributes of %s on %s: Reset failed' % ( path, service_name ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if connect_message.status == 0:
self.connected_trees[service_name] = connect_message.tid
sendCreate(connect_message.tid)
else:
errback(OperationFailure('Failed to reset attributes of %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMB2Message(SMB2TreeConnectRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name )))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendCreate(self.connected_trees[service_name])
def _createDirectory_SMB2(self, service_name, path, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path.replace('/', '\\')
if path.startswith('\\'):
path = path[1:]
if path.endswith('\\'):
path = path[:-1]
messages_history = [ ]
def sendCreate(tid):
create_context_data = binascii.unhexlify("""
28 00 00 00 10 00 04 00 00 00 18 00 10 00 00 00
44 48 6e 51 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 18 00 00 00 10 00 04 00
00 00 18 00 00 00 00 00 4d 78 41 63 00 00 00 00
00 00 00 00 10 00 04 00 00 00 18 00 00 00 00 00
51 46 69 64 00 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMB2Message(SMB2CreateRequest(path,
file_attributes = 0,
access_mask = FILE_READ_DATA | FILE_WRITE_DATA | FILE_READ_EA | FILE_WRITE_EA | FILE_READ_ATTRIBUTES | FILE_WRITE_ATTRIBUTES | READ_CONTROL | DELETE | SYNCHRONIZE,
share_access = 0,
oplock = SMB2_OPLOCK_LEVEL_NONE,
impersonation = SEC_IMPERSONATE,
create_options = FILE_DIRECTORY_FILE | FILE_SYNCHRONOUS_IO_NONALERT,
create_disp = FILE_CREATE,
create_context_data = create_context_data))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, createCB, errback, tid = tid)
messages_history.append(m)
def createCB(create_message, **kwargs):
messages_history.append(create_message)
if create_message.status == 0:
closeFid(kwargs['tid'], create_message.payload.fid)
else:
errback(OperationFailure('Failed to create directory %s on %s: Create failed' % ( path, service_name ), messages_history))
def closeFid(tid, fid):
m = SMB2Message(SMB2CloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, closeCB, errback)
messages_history.append(m)
def closeCB(close_message, **kwargs):
callback(path)
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if connect_message.status == 0:
self.connected_trees[service_name] = connect_message.tid
sendCreate(connect_message.tid)
else:
errback(OperationFailure('Failed to create directory %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMB2Message(SMB2TreeConnectRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name )))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendCreate(self.connected_trees[service_name])
def _deleteDirectory_SMB2(self, service_name, path, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path.replace('/', '\\')
if path.startswith('\\'):
path = path[1:]
if path.endswith('\\'):
path = path[:-1]
messages_history = [ ]
def sendCreate(tid):
create_context_data = binascii.unhexlify("""
28 00 00 00 10 00 04 00 00 00 18 00 10 00 00 00
44 48 6e 51 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 18 00 00 00 10 00 04 00
00 00 18 00 00 00 00 00 4d 78 41 63 00 00 00 00
00 00 00 00 10 00 04 00 00 00 18 00 00 00 00 00
51 46 69 64 00 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMB2Message(SMB2CreateRequest(path,
file_attributes = 0,
access_mask = DELETE | FILE_READ_ATTRIBUTES,
share_access = FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE,
oplock = SMB2_OPLOCK_LEVEL_NONE,
impersonation = SEC_IMPERSONATE,
create_options = FILE_DIRECTORY_FILE,
create_disp = FILE_OPEN,
create_context_data = create_context_data))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, createCB, errback, tid = tid)
messages_history.append(m)
def createCB(open_message, **kwargs):
messages_history.append(open_message)
if open_message.status == 0:
sendDelete(kwargs['tid'], open_message.payload.fid)
else:
errback(OperationFailure('Failed to delete %s on %s: Unable to open directory' % ( path, service_name ), messages_history))
def sendDelete(tid, fid):
m = SMB2Message(SMB2SetInfoRequest(fid,
additional_info = 0,
info_type = SMB2_INFO_FILE,
file_info_class = 0x0d, # SMB2_FILE_DISPOSITION_INFO
data = '\x01'))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, deleteCB, errback, tid = tid, fid = fid)
messages_history.append(m)
def deleteCB(delete_message, **kwargs):
messages_history.append(delete_message)
if delete_message.status == 0:
closeFid(kwargs['tid'], kwargs['fid'], status = 0)
else:
closeFid(kwargs['tid'], kwargs['fid'], status = delete_message.status)
def closeFid(tid, fid, status = None):
m = SMB2Message(SMB2CloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, closeCB, errback, status = status)
messages_history.append(m)
def closeCB(close_message, **kwargs):
if kwargs['status'] == 0:
callback(path)
else:
errback(OperationFailure('Failed to delete %s on %s: Delete failed' % ( path, service_name ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if connect_message.status == 0:
self.connected_trees[service_name] = connect_message.tid
sendCreate(connect_message.tid)
else:
errback(OperationFailure('Failed to delete %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMB2Message(SMB2TreeConnectRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name )))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendCreate(self.connected_trees[service_name])
def _rename_SMB2(self, service_name, old_path, new_path, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
messages_history = [ ]
new_path = new_path.replace('/', '\\')
if new_path.startswith('\\'):
new_path = new_path[1:]
if new_path.endswith('\\'):
new_path = new_path[:-1]
old_path = old_path.replace('/', '\\')
if old_path.startswith('\\'):
old_path = old_path[1:]
if old_path.endswith('\\'):
old_path = old_path[:-1]
def sendCreate(tid):
create_context_data = binascii.unhexlify("""
28 00 00 00 10 00 04 00 00 00 18 00 10 00 00 00
44 48 6e 51 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 18 00 00 00 10 00 04 00
00 00 18 00 00 00 00 00 4d 78 41 63 00 00 00 00
00 00 00 00 10 00 04 00 00 00 18 00 00 00 00 00
51 46 69 64 00 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMB2Message(SMB2CreateRequest(old_path,
file_attributes = 0,
access_mask = DELETE | FILE_READ_ATTRIBUTES | SYNCHRONIZE,
share_access = FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE,
oplock = SMB2_OPLOCK_LEVEL_NONE,
impersonation = SEC_IMPERSONATE,
create_options = FILE_SYNCHRONOUS_IO_NONALERT,
create_disp = FILE_OPEN,
create_context_data = create_context_data))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, createCB, errback, tid = tid)
messages_history.append(m)
def createCB(create_message, **kwargs):
messages_history.append(create_message)
if create_message.status == 0:
sendRename(kwargs['tid'], create_message.payload.fid)
else:
errback(OperationFailure('Failed to rename %s on %s: Unable to open file/directory' % ( old_path, service_name ), messages_history))
def sendRename(tid, fid):
data = '\x00'*16 + struct.pack('<I', len(new_path)*2) + new_path.encode('UTF-16LE')
m = SMB2Message(SMB2SetInfoRequest(fid,
additional_info = 0,
info_type = SMB2_INFO_FILE,
file_info_class = 0x0a, # SMB2_FILE_RENAME_INFO
data = data))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, renameCB, errback, tid = tid, fid = fid)
messages_history.append(m)
def renameCB(rename_message, **kwargs):
messages_history.append(rename_message)
if rename_message.status == 0:
closeFid(kwargs['tid'], kwargs['fid'], status = 0)
else:
closeFid(kwargs['tid'], kwargs['fid'], status = rename_message.status)
def closeFid(tid, fid, status = None):
m = SMB2Message(SMB2CloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, closeCB, errback, status = status)
messages_history.append(m)
def closeCB(close_message, **kwargs):
if kwargs['status'] == 0:
callback(( old_path, new_path ))
else:
errback(OperationFailure('Failed to rename %s on %s: Rename failed' % ( old_path, service_name ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if connect_message.status == 0:
self.connected_trees[service_name] = connect_message.tid
sendCreate(connect_message.tid)
else:
errback(OperationFailure('Failed to rename %s on %s: Unable to connect to shared device' % ( old_path, service_name ), messages_history))
m = SMB2Message(SMB2TreeConnectRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name )))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendCreate(self.connected_trees[service_name])
def _listSnapshots_SMB2(self, service_name, path, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path.replace('/', '\\')
if path.startswith('\\'):
path = path[1:]
if path.endswith('\\'):
path = path[:-1]
messages_history = [ ]
def sendCreate(tid):
create_context_data = binascii.unhexlify("""
28 00 00 00 10 00 04 00 00 00 18 00 10 00 00 00
44 48 6e 51 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 10 00 04 00
00 00 18 00 00 00 00 00 4d 78 41 63 00 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMB2Message(SMB2CreateRequest(path,
file_attributes = 0,
access_mask = FILE_READ_DATA | FILE_READ_ATTRIBUTES | SYNCHRONIZE,
share_access = FILE_SHARE_READ | FILE_SHARE_WRITE,
oplock = SMB2_OPLOCK_LEVEL_NONE,
impersonation = SEC_IMPERSONATE,
create_options = FILE_SYNCHRONOUS_IO_NONALERT,
create_disp = FILE_OPEN,
create_context_data = create_context_data))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, createCB, errback, tid = tid)
messages_history.append(m)
def createCB(create_message, **kwargs):
messages_history.append(create_message)
if create_message.status == 0:
sendEnumSnapshots(kwargs['tid'], create_message.payload.fid)
else:
errback(OperationFailure('Failed to list snapshots %s on %s: Unable to open file/directory' % ( old_path, service_name ), messages_history))
def sendEnumSnapshots(tid, fid):
m = SMB2Message(SMB2IoctlRequest(fid,
ctlcode = 0x00144064, # FSCTL_SRV_ENUMERATE_SNAPSHOTS
flags = 0x0001,
in_data = ''))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, enumSnapshotsCB, errback, tid = tid, fid = fid)
messages_history.append(m)
def enumSnapshotsCB(enum_message, **kwargs):
messages_history.append(enum_message)
if enum_message.status == 0:
results = [ ]
snapshots_count = struct.unpack('<I', enum_message.payload.out_data[4:8])[0]
for i in range(0, snapshots_count):
s = enum_message.payload.out_data[12+i*50:12+48+i*50].decode('UTF-16LE')
results.append(datetime(*map(int, ( s[5:9], s[10:12], s[13:15], s[16:18], s[19:21], s[22:24] ))))
closeFid(kwargs['tid'], kwargs['fid'], results = results)
else:
closeFid(kwargs['tid'], kwargs['fid'], status = enum_message.status)
def closeFid(tid, fid, status = None, results = None):
m = SMB2Message(SMB2CloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, closeCB, errback, status = status, results = results)
messages_history.append(m)
def closeCB(close_message, **kwargs):
if kwargs['results'] is not None:
callback(kwargs['results'])
else:
errback(OperationFailure('Failed to list snapshots %s on %s: List failed' % ( path, service_name ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if connect_message.status == 0:
self.connected_trees[service_name] = connect_message.tid
sendCreate(connect_message.tid)
else:
errback(OperationFailure('Failed to list snapshots %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMB2Message(SMB2TreeConnectRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name )))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendCreate(self.connected_trees[service_name])
def _echo_SMB2(self, data, callback, errback, timeout = 30):
messages_history = [ ]
def echoCB(echo_message, **kwargs):
messages_history.append(echo_message)
if echo_message.status == 0:
callback(data)
else:
errback(OperationFailure('Echo failed', messages_history))
m = SMB2Message(SMB2EchoRequest())
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, echoCB, errback)
messages_history.append(m)
#
# SMB1 Methods Family
#
def _sendSMBMessage_SMB1(self, smb_message):
if smb_message.mid == 0:
smb_message.mid = self._getNextMID_SMB1()
if not smb_message.uid:
smb_message.uid = self.uid
if self.is_signing_active:
smb_message.flags2 |= SMB_FLAGS2_SMB_SECURITY_SIGNATURE
# Increment the next_signing_id as described in [MS-CIFS] 3.2.4.1.3
smb_message.security = self.next_signing_id
self.next_signing_id += 2 # All our defined messages currently have responses, so always increment by 2
raw_data = smb_message.encode()
md = ntlm.MD5(self.signing_session_key)
if self.signing_challenge_response:
md.update(self.signing_challenge_response)
md.update(raw_data)
signature = md.digest()[:8]
self.log.debug('MID is %d. Signing ID is %d. Signature is %s. Total raw message is %d bytes', smb_message.mid, smb_message.security, binascii.hexlify(signature), len(raw_data))
smb_message.raw_data = raw_data[:14] + signature + raw_data[22:]
else:
smb_message.raw_data = smb_message.encode()
self.sendNMBMessage(smb_message.raw_data)
def _getNextMID_SMB1(self):
self.mid += 1
if self.mid >= 0xFFFF: # MID cannot be 0xFFFF. [MS-CIFS]: 2.2.1.6.2
# We don't use MID of 0 as MID can be reused for SMB_COM_TRANSACTION2_SECONDARY messages
# where if mid=0, _sendSMBMessage will re-assign new MID values again
self.mid = 1
return self.mid
def _updateState_SMB1(self, message):
if message.isReply:
if message.command == SMB_COM_NEGOTIATE:
if not message.status.hasError:
self.has_negotiated = True
self.log.info('SMB dialect negotiation successful (ExtendedSecurity:%s)', message.hasExtendedSecurity)
self._updateServerInfo(message.payload)
self._handleNegotiateResponse(message)
else:
raise ProtocolError('Unknown status value (0x%08X) in SMB_COM_NEGOTIATE' % message.status.internal_value,
message.raw_data, message)
elif message.command == SMB_COM_SESSION_SETUP_ANDX:
if message.hasExtendedSecurity:
if not message.status.hasError:
try:
result = securityblob.decodeAuthResponseSecurityBlob(message.payload.security_blob)
if result == securityblob.RESULT_ACCEPT_COMPLETED:
self.log.debug('SMB uid is now %d', message.uid)
self.uid = message.uid
self.has_authenticated = True
self.log.info('Authentication (with extended security) successful!')
self.onAuthOK()
else:
raise ProtocolError('SMB_COM_SESSION_SETUP_ANDX status is 0 but security blob negResult value is %d' % result, message.raw_data, message)
except securityblob.BadSecurityBlobError, ex:
raise ProtocolError(str(ex), message.raw_data, message)
elif message.status.internal_value == 0xc0000016: # STATUS_MORE_PROCESSING_REQUIRED
try:
result, ntlm_token = securityblob.decodeChallengeSecurityBlob(message.payload.security_blob)
if result == securityblob.RESULT_ACCEPT_INCOMPLETE:
self._handleSessionChallenge(message, ntlm_token)
except ( securityblob.BadSecurityBlobError, securityblob.UnsupportedSecurityProvider ), ex:
raise ProtocolError(str(ex), message.raw_data, message)
elif (message.status.internal_value == 0xc000006d # STATUS_LOGON_FAILURE
or message.status.internal_value == 0xc0000064 # STATUS_NO_SUCH_USER
or message.status.internal_value == 0xc000006a): # STATUS_WRONG_PASSWORD
self.has_authenticated = False
self.log.info('Authentication (with extended security) failed. Please check username and password.')
self.onAuthFailed()
elif (message.status.internal_value == 0xc0000193 # STATUS_ACCOUNT_EXPIRED
or message.status.internal_value == 0xC0000071): # STATUS_PASSWORD_EXPIRED
self.has_authenticated = False
self.log.info('Authentication (with extended security) failed. Account or password has expired.')
self.onAuthFailed()
elif message.status.internal_value == 0xc0000234: # STATUS_ACCOUNT_LOCKED_OUT
self.has_authenticated = False
self.log.info('Authentication (with extended security) failed. Account has been locked due to too many invalid logon attempts.')
self.onAuthFailed()
elif message.status.internal_value == 0xc0000072: # STATUS_ACCOUNT_DISABLED
self.has_authenticated = False
self.log.info('Authentication (with extended security) failed. Account has been disabled.')
self.onAuthFailed()
elif (message.status.internal_value == 0xc000006f # STATUS_INVALID_LOGON_HOURS
or message.status.internal_value == 0xc000015b # STATUS_LOGON_TYPE_NOT_GRANTED
or message.status.internal_value == 0xc0000070): # STATUS_INVALID_WORKSTATION
self.has_authenticated = False
self.log.info('Authentication (with extended security) failed. Not allowed.')
self.onAuthFailed()
elif message.status.internal_value == 0xc000018c: # STATUS_TRUSTED_DOMAIN_FAILURE
self.has_authenticated = False
self.log.info('Authentication (with extended security) failed. Domain not trusted.')
self.onAuthFailed()
elif message.status.internal_value == 0xc000018d: # STATUS_TRUSTED_RELATIONSHIP_FAILURE
self.has_authenticated = False
self.log.info('Authentication (with extended security) failed. Workstation not trusted.')
self.onAuthFailed()
else:
raise ProtocolError('Unknown status value (0x%08X) in SMB_COM_SESSION_SETUP_ANDX (with extended security)' % message.status.internal_value,
message.raw_data, message)
else:
if message.status.internal_value == 0:
self.log.debug('SMB uid is now %d', message.uid)
self.uid = message.uid
self.has_authenticated = True
self.log.info('Authentication (without extended security) successful!')
self.onAuthOK()
else:
self.has_authenticated = False
self.log.info('Authentication (without extended security) failed. Please check username and password')
self.onAuthFailed()
elif message.command == SMB_COM_TREE_CONNECT_ANDX:
try:
req = self.pending_requests[message.mid]
except KeyError:
pass
else:
if not message.status.hasError:
self.connected_trees[req.kwargs['path']] = message.tid
req = self.pending_requests.pop(message.mid, None)
if req:
req.callback(message, **req.kwargs)
return True
def _updateServerInfo_SMB1(self, payload):
self.capabilities = payload.capabilities
self.security_mode = payload.security_mode
self.max_raw_size = payload.max_raw_size
self.max_buffer_size = payload.max_buffer_size
self.max_mpx_count = payload.max_mpx_count
self.use_plaintext_authentication = not bool(payload.security_mode & NEGOTIATE_ENCRYPT_PASSWORDS)
if self.use_plaintext_authentication:
self.log.warning('Remote server only supports plaintext authentication. Your password can be stolen easily over the network.')
def _handleSessionChallenge_SMB1(self, message, ntlm_token):
assert message.hasExtendedSecurity
if message.uid and not self.uid:
self.uid = message.uid
server_challenge, server_flags, server_info = ntlm.decodeChallengeMessage(ntlm_token)
if self.use_ntlm_v2:
self.log.info('Performing NTLMv2 authentication (with extended security) with server challenge "%s"', binascii.hexlify(server_challenge))
nt_challenge_response, lm_challenge_response, session_key = ntlm.generateChallengeResponseV2(self.password,
self.username,
server_challenge,
server_info,
self.domain)
else:
self.log.info('Performing NTLMv1 authentication (with extended security) with server challenge "%s"', binascii.hexlify(server_challenge))
nt_challenge_response, lm_challenge_response, session_key = ntlm.generateChallengeResponseV1(self.password, server_challenge, True)
ntlm_data = ntlm.generateAuthenticateMessage(server_flags,
nt_challenge_response,
lm_challenge_response,
session_key,
self.username,
self.domain,
self.my_name)
if self.log.isEnabledFor(logging.DEBUG):
self.log.debug('NT challenge response is "%s" (%d bytes)', binascii.hexlify(nt_challenge_response), len(nt_challenge_response))
self.log.debug('LM challenge response is "%s" (%d bytes)', binascii.hexlify(lm_challenge_response), len(lm_challenge_response))
blob = securityblob.generateAuthSecurityBlob(ntlm_data)
self._sendSMBMessage(SMBMessage(ComSessionSetupAndxRequest__WithSecurityExtension(0, blob)))
if self.security_mode & NEGOTIATE_SECURITY_SIGNATURES_REQUIRE:
self.log.info('Server requires all SMB messages to be signed')
self.is_signing_active = (self.sign_options != SMB.SIGN_NEVER)
elif self.security_mode & NEGOTIATE_SECURITY_SIGNATURES_ENABLE:
self.log.info('Server supports SMB signing')
self.is_signing_active = (self.sign_options == SMB.SIGN_WHEN_SUPPORTED)
else:
self.is_signing_active = False
if self.is_signing_active:
self.log.info("SMB signing activated. All SMB messages will be signed.")
self.signing_session_key = session_key
if self.capabilities & CAP_EXTENDED_SECURITY:
self.signing_challenge_response = None
else:
self.signing_challenge_response = blob
else:
self.log.info("SMB signing deactivated. SMB messages will NOT be signed.")
def _handleNegotiateResponse_SMB1(self, message):
if message.uid and not self.uid:
self.uid = message.uid
if message.hasExtendedSecurity or message.payload.supportsExtendedSecurity:
ntlm_data = ntlm.generateNegotiateMessage()
blob = securityblob.generateNegotiateSecurityBlob(ntlm_data)
self._sendSMBMessage(SMBMessage(ComSessionSetupAndxRequest__WithSecurityExtension(message.payload.session_key, blob)))
else:
nt_password, _, _ = ntlm.generateChallengeResponseV1(self.password, message.payload.challenge, False)
self.log.info('Performing NTLMv1 authentication (without extended security) with challenge "%s" and hashed password of "%s"',
binascii.hexlify(message.payload.challenge),
binascii.hexlify(nt_password))
self._sendSMBMessage(SMBMessage(ComSessionSetupAndxRequest__NoSecurityExtension(message.payload.session_key,
self.username,
nt_password,
True,
self.domain)))
def _listShares_SMB1(self, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = 'IPC$'
messages_history = [ ]
def connectSrvSvc(tid):
m = SMBMessage(ComNTCreateAndxRequest('\\srvsvc',
flags = NT_CREATE_REQUEST_EXTENDED_RESPONSE,
access_mask = READ_CONTROL | FILE_WRITE_ATTRIBUTES | FILE_READ_ATTRIBUTES | FILE_WRITE_EA | FILE_READ_EA | FILE_APPEND_DATA | FILE_WRITE_DATA | FILE_READ_DATA,
share_access = FILE_SHARE_READ | FILE_SHARE_WRITE,
create_disp = FILE_OPEN,
create_options = FILE_OPEN_NO_RECALL | FILE_NON_DIRECTORY_FILE,
impersonation = SEC_IMPERSONATE,
security_flags = 0))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectSrvSvcCB, errback)
messages_history.append(m)
def connectSrvSvcCB(create_message, **kwargs):
messages_history.append(create_message)
if not create_message.status.hasError:
call_id = self._getNextRPCCallID()
# See [MS-CIFS]: 2.2.5.6.1 for more information on TRANS_TRANSACT_NMPIPE (0x0026) parameters
setup_bytes = struct.pack('<HH', 0x0026, create_message.payload.fid)
# The data_bytes are binding call to Server Service RPC using DCE v1.1 RPC over SMB. See [MS-SRVS] and [C706]
# If you wish to understand the meanings of the byte stream, I would suggest you use a recent version of WireShark to packet capture the stream
data_bytes = \
binascii.unhexlify("""05 00 0b 03 10 00 00 00 48 00 00 00""".replace(' ', '')) + \
struct.pack('<I', call_id) + \
binascii.unhexlify("""
b8 10 b8 10 00 00 00 00 01 00 00 00 00 00 01 00
c8 4f 32 4b 70 16 d3 01 12 78 5a 47 bf 6e e1 88
03 00 00 00 04 5d 88 8a eb 1c c9 11 9f e8 08 00
2b 10 48 60 02 00 00 00""".replace(' ', '').replace('\n', ''))
m = SMBMessage(ComTransactionRequest(max_params_count = 0,
max_data_count = 4280,
max_setup_count = 0,
data_bytes = data_bytes,
setup_bytes = setup_bytes))
m.tid = create_message.tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, rpcBindCB, errback, fid = create_message.payload.fid)
messages_history.append(m)
else:
errback(OperationFailure('Failed to list shares: Unable to locate Server Service RPC endpoint', messages_history))
def rpcBindCB(trans_message, **kwargs):
messages_history.append(trans_message)
if not trans_message.status.hasError:
call_id = self._getNextRPCCallID()
padding = ''
server_len = len(self.remote_name) + 1
server_bytes_len = server_len * 2
if server_len % 2 != 0:
padding = '\0\0'
server_bytes_len += 2
# See [MS-CIFS]: 2.2.5.6.1 for more information on TRANS_TRANSACT_NMPIPE (0x0026) parameters
setup_bytes = struct.pack('<HH', 0x0026, kwargs['fid'])
# The data bytes are the RPC call to NetrShareEnum (Opnum 15) at Server Service RPC.
# If you wish to understand the meanings of the byte stream, I would suggest you use a recent version of WireShark to packet capture the stream
data_bytes = \
binascii.unhexlify("""05 00 00 03 10 00 00 00""".replace(' ', '')) + \
struct.pack('<HHI', 72+server_bytes_len, 0, call_id) + \
binascii.unhexlify("""4c 00 00 00 00 00 0f 00 00 00 02 00""".replace(' ', '')) + \
struct.pack('<III', server_len, 0, server_len) + \
(self.remote_name + '\0').encode('UTF-16LE') + padding + \
binascii.unhexlify("""
01 00 00 00 01 00 00 00 04 00 02 00 00 00 00 00
00 00 00 00 ff ff ff ff 08 00 02 00 00 00 00 00
""".replace(' ', '').replace('\n', ''))
m = SMBMessage(ComTransactionRequest(max_params_count = 0,
max_data_count = 4280,
max_setup_count = 0,
data_bytes = data_bytes,
setup_bytes = setup_bytes))
m.tid = trans_message.tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, listShareResultsCB, errback, fid = kwargs['fid'])
messages_history.append(m)
else:
closeFid(trans_message.tid, kwargs['fid'])
errback(OperationFailure('Failed to list shares: Unable to bind to Server Service RPC endpoint', messages_history))
def listShareResultsCB(result_message, **kwargs):
messages_history.append(result_message)
if not result_message.status.hasError:
# The payload.data_bytes will contain the results of the RPC call to NetrShareEnum (Opnum 15) at Server Service RPC.
data_bytes = result_message.payload.data_bytes
if ord(data_bytes[3]) & 0x02 == 0:
sendReadRequest(result_message.tid, kwargs['fid'], data_bytes)
else:
decodeResults(result_message.tid, kwargs['fid'], data_bytes)
else:
closeFid(result_message.tid, kwargs['fid'])
errback(OperationFailure('Failed to list shares: Unable to retrieve shared device list', messages_history))
def decodeResults(tid, fid, data_bytes):
shares_count = struct.unpack('<I', data_bytes[36:40])[0]
results = [ ] # A list of SharedDevice instances
offset = 36 + 12 # You need to study the byte stream to understand the meaning of these constants
for i in range(0, shares_count):
results.append(SharedDevice(struct.unpack('<I', data_bytes[offset+4:offset+8])[0], None, None))
offset += 12
for i in range(0, shares_count):
max_length, _, length = struct.unpack('<III', data_bytes[offset:offset+12])
offset += 12
results[i].name = unicode(data_bytes[offset:offset+length*2-2], 'UTF-16LE')
if length % 2 != 0:
offset += (length * 2 + 2)
else:
offset += (length * 2)
max_length, _, length = struct.unpack('<III', data_bytes[offset:offset+12])
offset += 12
results[i].comments = unicode(data_bytes[offset:offset+length*2-2], 'UTF-16LE')
if length % 2 != 0:
offset += (length * 2 + 2)
else:
offset += (length * 2)
closeFid(tid, fid)
callback(results)
def sendReadRequest(tid, fid, data_bytes):
read_count = min(4280, self.max_raw_size - 2)
m = SMBMessage(ComReadAndxRequest(fid = fid,
offset = 0,
max_return_bytes_count = read_count,
min_return_bytes_count = read_count))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, readCB, errback, fid = fid, data_bytes = data_bytes)
def readCB(read_message, **kwargs):
messages_history.append(read_message)
if not read_message.status.hasError:
data_bytes = read_message.payload.data
if ord(data_bytes[3]) & 0x02 == 0:
sendReadRequest(read_message.tid, kwargs['fid'], kwargs['data_bytes'] + data_bytes[24:])
else:
decodeResults(read_message.tid, kwargs['fid'], kwargs['data_bytes'] + data_bytes[24:])
else:
closeFid(read_message.tid, kwargs['fid'])
errback(OperationFailure('Failed to list shares: Unable to retrieve shared device list', messages_history))
def closeFid(tid, fid):
m = SMBMessage(ComCloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
messages_history.append(m)
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if not connect_message.status.hasError:
self.connected_trees[path] = connect_message.tid
connectSrvSvc(connect_message.tid)
else:
errback(OperationFailure('Failed to list shares: Unable to connect to IPC$', messages_history))
m = SMBMessage(ComTreeConnectAndxRequest(r'\\%s\%s' % ( self.remote_name.upper(), path ), SERVICE_ANY, ''))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = path)
messages_history.append(m)
def _listPath_SMB1(self, service_name, path, callback, errback, search, pattern, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path.replace('/', '\\')
if not path.endswith('\\'):
path += '\\'
messages_history = [ ]
results = [ ]
def sendFindFirst(tid, support_dfs=False):
setup_bytes = struct.pack('<H', 0x0001) # TRANS2_FIND_FIRST2 sub-command. See [MS-CIFS]: 2.2.6.2.1
params_bytes = \
struct.pack('<HHHHI',
search & 0xFFFF, # SearchAttributes (need to restrict the values due to introduction of SMB_FILE_ATTRIBUTE_INCL_NORMAL)
100, # SearchCount
0x0006, # Flags: SMB_FIND_CLOSE_AT_EOS | SMB_FIND_RETURN_RESUME_KEYS
0x0104, # InfoLevel: SMB_FIND_FILE_BOTH_DIRECTORY_INFO
0x0000) # SearchStorageType (seems to be ignored by Windows)
if support_dfs:
params_bytes += ("\\" + self.remote_name + "\\" + service_name + path + pattern + '\0').encode('UTF-16LE')
else:
params_bytes += (path + pattern + '\0').encode('UTF-16LE')
m = SMBMessage(ComTransaction2Request(max_params_count = 10,
max_data_count = 16644,
max_setup_count = 0,
params_bytes = params_bytes,
setup_bytes = setup_bytes))
m.tid = tid
if support_dfs:
m.flags2 |= SMB_FLAGS2_DFS
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, findFirstCB, errback, support_dfs=support_dfs)
messages_history.append(m)
def decodeFindStruct(data_bytes):
# SMB_FIND_FILE_BOTH_DIRECTORY_INFO structure. See [MS-CIFS]: 2.2.8.1.7 and [MS-SMB]: 2.2.8.1.1
info_format = '<IIQQQQQQIIIBB24s'
info_size = struct.calcsize(info_format)
data_length = len(data_bytes)
offset = 0
while offset < data_length:
if offset + info_size > data_length:
return data_bytes[offset:]
next_offset, _, \
create_time, last_access_time, last_write_time, last_attr_change_time, \
file_size, alloc_size, file_attributes, filename_length, ea_size, \
short_name_length, _, short_name = struct.unpack(info_format, data_bytes[offset:offset+info_size])
offset2 = offset + info_size
if offset2 + filename_length > data_length:
return data_bytes[offset:]
filename = data_bytes[offset2:offset2+filename_length].decode('UTF-16LE')
short_name = short_name.decode('UTF-16LE')
accept_result = False
if (file_attributes & 0xff) in ( 0x00, ATTR_NORMAL ): # Only the first 8-bits are compared. We ignore other bits like temp, compressed, encryption, sparse, indexed, etc
accept_result = (search == SMB_FILE_ATTRIBUTE_NORMAL) or (search & SMB_FILE_ATTRIBUTE_INCL_NORMAL)
else:
accept_result = (file_attributes & search) > 0
if accept_result:
results.append(SharedFile(convertFILETIMEtoEpoch(create_time), convertFILETIMEtoEpoch(last_access_time),
convertFILETIMEtoEpoch(last_write_time), convertFILETIMEtoEpoch(last_attr_change_time),
file_size, alloc_size, file_attributes, short_name, filename))
if next_offset:
offset += next_offset
else:
break
return ''
def findFirstCB(find_message, **kwargs):
messages_history.append(find_message)
if not find_message.status.hasError:
if not kwargs.has_key('total_count'):
# TRANS2_FIND_FIRST2 response. [MS-CIFS]: 2.2.6.2.2
sid, search_count, end_of_search, _, last_name_offset = struct.unpack('<HHHHH', find_message.payload.params_bytes[:10])
kwargs.update({ 'sid': sid, 'end_of_search': end_of_search, 'last_name_offset': last_name_offset, 'data_buf': '' })
else:
sid, end_of_search, last_name_offset = kwargs['sid'], kwargs['end_of_search'], kwargs['last_name_offset']
send_next = True
if find_message.payload.data_bytes:
d = decodeFindStruct(kwargs['data_buf'] + find_message.payload.data_bytes)
if not kwargs.has_key('data_count'):
if len(find_message.payload.data_bytes) != find_message.payload.total_data_count:
kwargs.update({ 'data_count': len(find_message.payload.data_bytes),
'total_count': find_message.payload.total_data_count,
'data_buf': d,
})
send_next = False
else:
kwargs['data_count'] += len(find_message.payload.data_bytes)
kwargs['total_count'] = min(find_message.payload.total_data_count, kwargs['total_count'])
kwargs['data_buf'] = d
if kwargs['data_count'] != kwargs['total_count']:
send_next = False
if not send_next:
self.pending_requests[find_message.mid] = _PendingRequest(find_message.mid, expiry_time, findFirstCB, errback, **kwargs)
elif end_of_search:
callback(results)
else:
sendFindNext(find_message.tid, sid, 0, results[-1].filename, kwargs.get('support_dfs', False))
else:
if find_message.status.internal_value == 0xC000000F: # [MS-ERREF]: STATUS_NO_SUCH_FILE
# Remote server returns STATUS_NO_SUCH_FILE error so we assume that the search returns no matching files
callback([ ])
else:
errback(OperationFailure('Failed to list %s on %s: Unable to retrieve file list' % ( path, service_name ), messages_history))
def sendFindNext(tid, sid, resume_key, resume_file, support_dfs=False):
setup_bytes = struct.pack('<H', 0x0002) # TRANS2_FIND_NEXT2 sub-command. See [MS-CIFS]: 2.2.6.3.1
params_bytes = \
struct.pack('<HHHIH',
sid, # SID
100, # SearchCount
0x0104, # InfoLevel: SMB_FIND_FILE_BOTH_DIRECTORY_INFO
resume_key, # ResumeKey
0x0006) # Flags: SMB_FIND_RETURN_RESUME_KEYS | SMB_FIND_CLOSE_AT_EOS
params_bytes += (resume_file+'\0').encode('UTF-16LE')
m = SMBMessage(ComTransaction2Request(max_params_count = 10,
max_data_count = 16644,
max_setup_count = 0,
params_bytes = params_bytes,
setup_bytes = setup_bytes))
m.tid = tid
if support_dfs:
m.flags2 |= SMB_FLAGS2_DFS
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, findNextCB, errback, sid = sid, support_dfs = support_dfs)
messages_history.append(m)
def findNextCB(find_message, **kwargs):
messages_history.append(find_message)
if not find_message.status.hasError:
if not kwargs.has_key('total_count'):
# TRANS2_FIND_NEXT2 response. [MS-CIFS]: 2.2.6.3.2
search_count, end_of_search, _, last_name_offset = struct.unpack('<HHHH', find_message.payload.params_bytes[:8])
kwargs.update({ 'end_of_search': end_of_search, 'last_name_offset': last_name_offset, 'data_buf': '' })
else:
end_of_search, last_name_offset = kwargs['end_of_search'], kwargs['last_name_offset']
send_next = True
if find_message.payload.data_bytes:
d = decodeFindStruct(kwargs['data_buf'] + find_message.payload.data_bytes)
if not kwargs.has_key('data_count'):
if len(find_message.payload.data_bytes) != find_message.payload.total_data_count:
kwargs.update({ 'data_count': len(find_message.payload.data_bytes),
'total_count': find_message.payload.total_data_count,
'data_buf': d,
})
send_next = False
else:
kwargs['data_count'] += len(find_message.payload.data_bytes)
kwargs['total_count'] = min(find_message.payload.total_data_count, kwargs['total_count'])
kwargs['data_buf'] = d
if kwargs['data_count'] != kwargs['total_count']:
send_next = False
if not send_next:
self.pending_requests[find_message.mid] = _PendingRequest(find_message.mid, expiry_time, findNextCB, errback, **kwargs)
elif end_of_search:
callback(results)
else:
sendFindNext(find_message.tid, kwargs['sid'], 0, results[-1].filename, kwargs.get('support_dfs', False))
else:
errback(OperationFailure('Failed to list %s on %s: Unable to retrieve file list' % ( path, service_name ), messages_history))
def sendDFSReferral(tid):
setup_bytes = struct.pack('<H', 0x0010) # TRANS2_GET_DFS_REFERRAL sub-command. See [MS-CIFS]: 2.2.6.16.1
params_bytes = struct.pack('<H', 3) # Max referral level 3
params_bytes += ("\\" + self.remote_name + "\\" + service_name).encode('UTF-16LE')
m = SMBMessage(ComTransaction2Request(max_params_count = 10,
max_data_count = 16644,
max_setup_count = 0,
params_bytes = params_bytes,
setup_bytes = setup_bytes))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, dfsReferralCB, errback)
messages_history.append(m)
def dfsReferralCB(dfs_message, **kwargs):
sendFindFirst(dfs_message.tid, True)
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if not connect_message.status.hasError:
self.connected_trees[service_name] = connect_message.tid
if connect_message.payload.optional_support & SMB_TREE_CONNECTX_SUPPORT_DFS:
sendDFSReferral(connect_message.tid)
else:
sendFindFirst(connect_message.tid, False)
else:
errback(OperationFailure('Failed to list %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMBMessage(ComTreeConnectAndxRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name ), SERVICE_ANY, ''))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendFindFirst(self.connected_trees[service_name])
def _getAttributes_SMB1(self, service_name, path, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path.replace('/', '\\')
if path.startswith('\\'):
path = path[1:]
if path.endswith('\\'):
path = path[:-1]
messages_history = [ ]
def sendQuery(tid):
setup_bytes = struct.pack('<H', 0x0005) # TRANS2_QUERY_PATH_INFORMATION sub-command. See [MS-CIFS]: 2.2.6.6.1
params_bytes = \
struct.pack('<HI',
0x0107, # SMB_QUERY_FILE_ALL_INFO ([MS-CIFS] 2.2.2.3.3)
0x0000) # Reserved
params_bytes += (path + '\0').encode('UTF-16LE')
m = SMBMessage(ComTransaction2Request(max_params_count = 2,
max_data_count = 65535,
max_setup_count = 0,
params_bytes = params_bytes,
setup_bytes = setup_bytes))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, queryCB, errback)
messages_history.append(m)
def queryCB(query_message, **kwargs):
messages_history.append(query_message)
if not query_message.status.hasError:
info_format = '<QQQQIIQQ'
info_size = struct.calcsize(info_format)
create_time, last_access_time, last_write_time, last_attr_change_time, \
file_attributes, _, alloc_size, file_size = struct.unpack(info_format, query_message.payload.data_bytes[:info_size])
filename = self._extractLastPathComponent(unicode(path))
info = SharedFile(convertFILETIMEtoEpoch(create_time), convertFILETIMEtoEpoch(last_access_time), convertFILETIMEtoEpoch(last_write_time), convertFILETIMEtoEpoch(last_attr_change_time),
file_size, alloc_size, file_attributes, filename, filename)
callback(info)
else:
errback(OperationFailure('Failed to get attributes for %s on %s: Read failed' % ( path, service_name ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if not connect_message.status.hasError:
self.connected_trees[service_name] = connect_message.tid
sendQuery(connect_message.tid)
else:
errback(OperationFailure('Failed to get attributes for %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMBMessage(ComTreeConnectAndxRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name ), SERVICE_ANY, ''))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendQuery(self.connected_trees[service_name])
def _getSecurity_SMB1(self, service_name, path_file_pattern, callback, errback, timeout = 30):
raise NotReadyError('getSecurity is not yet implemented for SMB1')
def _retrieveFile_SMB1(self, service_name, path, file_obj, callback, errback, timeout = 30):
return self._retrieveFileFromOffset(service_name, path, file_obj, callback, errback, 0L, -1L, timeout)
def _retrieveFileFromOffset_SMB1(self, service_name, path, file_obj, callback, errback, starting_offset, max_length, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
path = path.replace('/', '\\')
messages_history = [ ]
def sendOpen(tid):
m = SMBMessage(ComOpenAndxRequest(filename = path,
access_mode = 0x0040, # Sharing mode: Deny nothing to others
open_mode = 0x0001, # Failed if file does not exist
search_attributes = SMB_FILE_ATTRIBUTE_HIDDEN | SMB_FILE_ATTRIBUTE_SYSTEM,
timeout = timeout * 1000))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, openCB, errback)
messages_history.append(m)
def openCB(open_message, **kwargs):
messages_history.append(open_message)
if not open_message.status.hasError:
if max_length == 0:
closeFid(open_message.tid, open_message.payload.fid)
callback(( file_obj, open_message.payload.file_attributes, 0L ))
else:
sendRead(open_message.tid, open_message.payload.fid, starting_offset, open_message.payload.file_attributes, 0L, max_length)
else:
errback(OperationFailure('Failed to retrieve %s on %s: Unable to open file' % ( path, service_name ), messages_history))
def sendRead(tid, fid, offset, file_attributes, read_len, remaining_len):
read_count = self.max_raw_size - 2
m = SMBMessage(ComReadAndxRequest(fid = fid,
offset = offset,
max_return_bytes_count = read_count,
min_return_bytes_count = min(0xFFFF, read_count)))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, readCB, errback, fid = fid, offset = offset, file_attributes = file_attributes,
read_len = read_len, remaining_len = remaining_len)
def readCB(read_message, **kwargs):
# To avoid crazy memory usage when retrieving large files, we do not save every read_message in messages_history.
if not read_message.status.hasError:
read_len = kwargs['read_len']
remaining_len = kwargs['remaining_len']
data_len = read_message.payload.data_length
if max_length > 0:
if data_len > remaining_len:
file_obj.write(read_message.payload.data[:remaining_len])
read_len += remaining_len
remaining_len = 0
else:
file_obj.write(read_message.payload.data)
remaining_len -= data_len
read_len += data_len
else:
file_obj.write(read_message.payload.data)
read_len += data_len
if (max_length > 0 and remaining_len <= 0) or data_len < (self.max_raw_size - 2):
closeFid(read_message.tid, kwargs['fid'])
callback(( file_obj, kwargs['file_attributes'], read_len )) # Note that this is a tuple of 3-elements
else:
sendRead(read_message.tid, kwargs['fid'], kwargs['offset']+data_len, kwargs['file_attributes'], read_len, remaining_len)
else:
messages_history.append(read_message)
closeFid(read_message.tid, kwargs['fid'])
errback(OperationFailure('Failed to retrieve %s on %s: Read failed' % ( path, service_name ), messages_history))
def closeFid(tid, fid):
m = SMBMessage(ComCloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
messages_history.append(m)
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if not connect_message.status.hasError:
self.connected_trees[service_name] = connect_message.tid
sendOpen(connect_message.tid)
else:
errback(OperationFailure('Failed to retrieve %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMBMessage(ComTreeConnectAndxRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name ), SERVICE_ANY, ''))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendOpen(self.connected_trees[service_name])
def _storeFile_SMB1(self, service_name, path, file_obj, callback, errback, timeout = 30):
self._storeFileFromOffset_SMB1(service_name, path, file_obj, callback, errback, 0L, True, timeout)
def _storeFileFromOffset_SMB1(self, service_name, path, file_obj, callback, errback, starting_offset, truncate = False, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
path = path.replace('/', '\\')
messages_history = [ ]
def sendOpen(tid):
m = SMBMessage(ComOpenAndxRequest(filename = path,
access_mode = 0x0041, # Sharing mode: Deny nothing to others + Open for writing
open_mode = 0x0012 if truncate else 0x0011, # Create file if file does not exist. Overwrite or append depending on truncate parameter.
search_attributes = SMB_FILE_ATTRIBUTE_HIDDEN | SMB_FILE_ATTRIBUTE_SYSTEM,
timeout = timeout * 1000))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, openCB, errback)
messages_history.append(m)
def openCB(open_message, **kwargs):
messages_history.append(open_message)
if not open_message.status.hasError:
sendWrite(open_message.tid, open_message.payload.fid, starting_offset)
else:
errback(OperationFailure('Failed to store %s on %s: Unable to open file' % ( path, service_name ), messages_history))
def sendWrite(tid, fid, offset):
# For message signing, the total SMB message size must be not exceed the max_buffer_size. Non-message signing does not have this limitation
write_count = min((self.is_signing_active and (self.max_buffer_size-64)) or self.max_raw_size, 0xFFFF-1) # Need to minus 1 byte from 0xFFFF because of the first NULL byte in the ComWriteAndxRequest message data
data_bytes = file_obj.read(write_count)
data_len = len(data_bytes)
if data_len > 0:
m = SMBMessage(ComWriteAndxRequest(fid = fid, offset = offset, data_bytes = data_bytes))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, writeCB, errback, fid = fid, offset = offset+data_len)
else:
closeFid(tid, fid)
callback(( file_obj, offset )) # Note that this is a tuple of 2-elements
def writeCB(write_message, **kwargs):
# To avoid crazy memory usage when saving large files, we do not save every write_message in messages_history.
if not write_message.status.hasError:
sendWrite(write_message.tid, kwargs['fid'], kwargs['offset'])
else:
messages_history.append(write_message)
closeFid(write_message.tid, kwargs['fid'])
errback(OperationFailure('Failed to store %s on %s: Write failed' % ( path, service_name ), messages_history))
def closeFid(tid, fid):
m = SMBMessage(ComCloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
messages_history.append(m)
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if not connect_message.status.hasError:
self.connected_trees[service_name] = connect_message.tid
sendOpen(connect_message.tid)
else:
errback(OperationFailure('Failed to store %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMBMessage(ComTreeConnectAndxRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name ), SERVICE_ANY, ''))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendOpen(self.connected_trees[service_name])
def _deleteFiles_SMB1(self, service_name, path_file_pattern, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
path = path_file_pattern.replace('/', '\\')
messages_history = [ ]
def sendDelete(tid):
m = SMBMessage(ComDeleteRequest(filename_pattern = path,
search_attributes = SMB_FILE_ATTRIBUTE_HIDDEN | SMB_FILE_ATTRIBUTE_SYSTEM))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, deleteCB, errback)
messages_history.append(m)
def deleteCB(delete_message, **kwargs):
messages_history.append(delete_message)
if not delete_message.status.hasError:
callback(path_file_pattern)
else:
errback(OperationFailure('Failed to store %s on %s: Delete failed' % ( path, service_name ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if not connect_message.status.hasError:
self.connected_trees[service_name] = connect_message.tid
sendDelete(connect_message.tid)
else:
errback(OperationFailure('Failed to delete %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMBMessage(ComTreeConnectAndxRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name ), SERVICE_ANY, ''))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendDelete(self.connected_trees[service_name])
def _resetFileAttributes_SMB1(self, service_name, path_file_pattern, callback, errback, timeout = 30):
raise NotReadyError('resetFileAttributes is not yet implemented for SMB1')
def _createDirectory_SMB1(self, service_name, path, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
path = path.replace('/', '\\')
messages_history = [ ]
def sendCreate(tid):
m = SMBMessage(ComCreateDirectoryRequest(path))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, createCB, errback)
messages_history.append(m)
def createCB(create_message, **kwargs):
messages_history.append(create_message)
if not create_message.status.hasError:
callback(path)
else:
errback(OperationFailure('Failed to create directory %s on %s: Create failed' % ( path, service_name ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if not connect_message.status.hasError:
self.connected_trees[service_name] = connect_message.tid
sendCreate(connect_message.tid)
else:
errback(OperationFailure('Failed to create directory %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMBMessage(ComTreeConnectAndxRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name ), SERVICE_ANY, ''))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendCreate(self.connected_trees[service_name])
def _deleteDirectory_SMB1(self, service_name, path, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
path = path.replace('/', '\\')
messages_history = [ ]
def sendDelete(tid):
m = SMBMessage(ComDeleteDirectoryRequest(path))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, deleteCB, errback)
messages_history.append(m)
def deleteCB(delete_message, **kwargs):
messages_history.append(delete_message)
if not delete_message.status.hasError:
callback(path)
else:
errback(OperationFailure('Failed to delete directory %s on %s: Delete failed' % ( path, service_name ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if not connect_message.status.hasError:
self.connected_trees[service_name] = connect_message.tid
sendDelete(connect_message.tid)
else:
errback(OperationFailure('Failed to delete %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMBMessage(ComTreeConnectAndxRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name ), SERVICE_ANY, ''))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendDelete(self.connected_trees[service_name])
def _rename_SMB1(self, service_name, old_path, new_path, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
new_path = new_path.replace('/', '\\')
old_path = old_path.replace('/', '\\')
messages_history = [ ]
def sendRename(tid):
m = SMBMessage(ComRenameRequest(old_path = old_path,
new_path = new_path,
search_attributes = SMB_FILE_ATTRIBUTE_HIDDEN | SMB_FILE_ATTRIBUTE_SYSTEM))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, renameCB, errback)
messages_history.append(m)
def renameCB(rename_message, **kwargs):
messages_history.append(rename_message)
if not rename_message.status.hasError:
callback(( old_path, new_path )) # Note that this is a tuple of 2-elements
else:
errback(OperationFailure('Failed to rename %s on %s: Rename failed' % ( old_path, service_name ), messages_history))
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if not connect_message.status.hasError:
self.connected_trees[service_name] = connect_message.tid
sendRename(connect_message.tid)
else:
errback(OperationFailure('Failed to rename %s on %s: Unable to connect to shared device' % ( old_path, service_name ), messages_history))
m = SMBMessage(ComTreeConnectAndxRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name ), SERVICE_ANY, ''))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendRename(self.connected_trees[service_name])
def _listSnapshots_SMB1(self, service_name, path, callback, errback, timeout = 30):
if not self.has_authenticated:
raise NotReadyError('SMB connection not authenticated')
expiry_time = time.time() + timeout
path = path.replace('/', '\\')
if not path.endswith('\\'):
path += '\\'
messages_history = [ ]
results = [ ]
def sendOpen(tid):
m = SMBMessage(ComOpenAndxRequest(filename = path,
access_mode = 0x0040, # Sharing mode: Deny nothing to others
open_mode = 0x0001, # Failed if file does not exist
search_attributes = 0,
timeout = timeout * 1000))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, openCB, errback)
messages_history.append(m)
def openCB(open_message, **kwargs):
messages_history.append(open_message)
if not open_message.status.hasError:
sendEnumSnapshots(open_message.tid, open_message.payload.fid)
else:
errback(OperationFailure('Failed to list snapshots %s on %s: Unable to open path' % ( path, service_name ), messages_history))
def sendEnumSnapshots(tid, fid):
# [MS-CIFS]: 2.2.7.2
# [MS-SMB]: 2.2.7.2.1
setup_bytes = struct.pack('<IHBB',
0x00144064, # [MS-SMB]: 2.2.7.2.1
fid, # FID
0x01, # IsFctl
0) # IsFlags
m = SMBMessage(ComNTTransactRequest(function = 0x0002, # NT_TRANSACT_IOCTL. [MS-CIFS]: 2.2.7.2.1
max_params_count = 0,
max_data_count = 0xFFFF,
max_setup_count = 0,
setup_bytes = setup_bytes))
m.tid = tid
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, enumSnapshotsCB, errback, tid = tid, fid = fid)
messages_history.append(m)
def enumSnapshotsCB(enum_message, **kwargs):
messages_history.append(enum_message)
if not enum_message.status.hasError:
results = [ ]
snapshots_count = struct.unpack('<I', enum_message.payload.data_bytes[4:8])[0]
for i in range(0, snapshots_count):
s = enum_message.payload.data_bytes[12+i*50:12+48+i*50].decode('UTF-16LE')
results.append(datetime(*map(int, ( s[5:9], s[10:12], s[13:15], s[16:18], s[19:21], s[22:24] ))))
closeFid(kwargs['tid'], kwargs['fid'])
callback(results)
else:
closeFid(kwargs['tid'], kwargs['fid'])
errback(OperationFailure('Failed to list snapshots %s on %s: Unable to list snapshots on path' % ( path, service_name ), messages_history))
def closeFid(tid, fid):
m = SMBMessage(ComCloseRequest(fid))
m.tid = tid
self._sendSMBMessage(m)
messages_history.append(m)
if not self.connected_trees.has_key(service_name):
def connectCB(connect_message, **kwargs):
messages_history.append(connect_message)
if not connect_message.status.hasError:
self.connected_trees[service_name] = connect_message.tid
sendOpen(connect_message.tid)
else:
errback(OperationFailure('Failed to list snapshots %s on %s: Unable to connect to shared device' % ( path, service_name ), messages_history))
m = SMBMessage(ComTreeConnectAndxRequest(r'\\%s\%s' % ( self.remote_name.upper(), service_name ), SERVICE_ANY, ''))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, expiry_time, connectCB, errback, path = service_name)
messages_history.append(m)
else:
sendOpen(self.connected_trees[service_name])
def _echo_SMB1(self, data, callback, errback, timeout = 30):
messages_history = [ ]
if not isinstance(data, type(b'')):
raise TypeError('Echo data must be %s not %s' % (type(b'').__name__, type(data).__name__))
def echoCB(echo_message, **kwargs):
messages_history.append(echo_message)
if not echo_message.status.hasError:
callback(echo_message.payload.data)
else:
errback(OperationFailure('Echo failed', messages_history))
m = SMBMessage(ComEchoRequest(echo_data = data))
self._sendSMBMessage(m)
self.pending_requests[m.mid] = _PendingRequest(m.mid, int(time.time()) + timeout, echoCB, errback)
messages_history.append(m)
def _extractLastPathComponent(self, path):
return path.replace('\\', '/').split('/')[-1]
class SharedDevice:
"""
Contains information about a single shared device on the remote server.
The following attributes are available:
* name : An unicode string containing the name of the shared device
* comments : An unicode string containing the user description of the shared device
"""
# The following constants are taken from [MS-SRVS]: 2.2.2.4
# They are used to identify the type of shared resource from the results from the NetrShareEnum in Server Service RPC
DISK_TREE = 0x00
PRINT_QUEUE = 0x01
COMM_DEVICE = 0x02
IPC = 0x03
def __init__(self, type, name, comments):
self._type = type
self.name = name #: An unicode string containing the name of the shared device
self.comments = comments #: An unicode string containing the user description of the shared device
@property
def type(self):
"""
Returns one of the following integral constants.
- SharedDevice.DISK_TREE
- SharedDevice.PRINT_QUEUE
- SharedDevice.COMM_DEVICE
- SharedDevice.IPC
"""
return self._type & 0xFFFF
@property
def isSpecial(self):
"""
Returns True if this shared device is a special share reserved for interprocess communication (IPC$)
or remote administration of the server (ADMIN$). Can also refer to administrative shares such as
C$, D$, E$, and so forth
"""
return bool(self._type & 0x80000000)
@property
def isTemporary(self):
"""
Returns True if this is a temporary share that is not persisted for creation each time the file server initializes.
"""
return bool(self._type & 0x40000000)
def __unicode__(self):
return u'Shared device: %s (type:0x%02x comments:%s)' % (self.name, self.type, self.comments )
class SharedFile:
"""
Contain information about a file/folder entry that is shared on the shared device.
As an application developer, you should not need to instantiate a *SharedFile* instance directly in your application.
These *SharedFile* instances are usually returned via a call to *listPath* method in :doc:`smb.SMBProtocol.SMBProtocolFactory<smb_SMBProtocolFactory>`.
If you encounter *SharedFile* instance where its short_name attribute is empty but the filename attribute contains a short name which does not correspond
to any files/folders on your remote shared device, it could be that the original filename on the file/folder entry on the shared device contains
one of these prohibited characters: "\/[]:+|<>=;?,* (see [MS-CIFS]: 2.2.1.1.1 for more details).
The following attributes are available:
* create_time : Float value in number of seconds since 1970-01-01 00:00:00 to the time of creation of this file resource on the remote server
* last_access_time : Float value in number of seconds since 1970-01-01 00:00:00 to the time of last access of this file resource on the remote server
* last_write_time : Float value in number of seconds since 1970-01-01 00:00:00 to the time of last modification of this file resource on the remote server
* last_attr_change_time : Float value in number of seconds since 1970-01-01 00:00:00 to the time of last attribute change of this file resource on the remote server
* file_size : File size in number of bytes
* alloc_size : Total number of bytes allocated to store this file
* file_attributes : A SMB_EXT_FILE_ATTR integer value. See [MS-CIFS]: 2.2.1.2.3. You can perform bit-wise tests to determine the status of the file using the ATTR_xxx constants in smb_constants.py.
* short_name : Unicode string containing the short name of this file (usually in 8.3 notation)
* filename : Unicode string containing the long filename of this file. Each OS has a limit to the length of this file name. On Windows, it is 256 characters.
* file_id : Long value representing the file reference number for the file. If the remote system does not support this field, this field will be None or 0. See [MS-FSCC]: 2.4.17
"""
def __init__(self, create_time, last_access_time, last_write_time, last_attr_change_time, file_size, alloc_size, file_attributes, short_name, filename, file_id=None):
self.create_time = create_time #: Float value in number of seconds since 1970-01-01 00:00:00 to the time of creation of this file resource on the remote server
self.last_access_time = last_access_time #: Float value in number of seconds since 1970-01-01 00:00:00 to the time of last access of this file resource on the remote server
self.last_write_time = last_write_time #: Float value in number of seconds since 1970-01-01 00:00:00 to the time of last modification of this file resource on the remote server
self.last_attr_change_time = last_attr_change_time #: Float value in number of seconds since 1970-01-01 00:00:00 to the time of last attribute change of this file resource on the remote server
self.file_size = file_size #: File size in number of bytes
self.alloc_size = alloc_size #: Total number of bytes allocated to store this file
self.file_attributes = file_attributes #: A SMB_EXT_FILE_ATTR integer value. See [MS-CIFS]: 2.2.1.2.3. You can perform bit-wise tests to determine the status of the file using the ATTR_xxx constants in smb_constants.py.
self.short_name = short_name #: Unicode string containing the short name of this file (usually in 8.3 notation)
self.filename = filename #: Unicode string containing the long filename of this file. Each OS has a limit to the length of this file name. On Windows, it is 256 characters.
self.file_id = file_id #: Long value representing the file reference number for the file. If the remote system does not support this field, this field will be None or 0. See [MS-FSCC]: 2.4.17
@property
def isDirectory(self):
"""A convenient property to return True if this file resource is a directory on the remote server"""
return bool(self.file_attributes & ATTR_DIRECTORY)
@property
def isReadOnly(self):
"""A convenient property to return True if this file resource is read-only on the remote server"""
return bool(self.file_attributes & ATTR_READONLY)
@property
def isNormal(self):
"""
A convenient property to return True if this is a normal file.
Note that pysmb defines a normal file as a file entry that is not read-only, not hidden, not system, not archive and not a directory.
It ignores other attributes like compression, indexed, sparse, temporary and encryption.
"""
return (self.file_attributes==ATTR_NORMAL) or ((self.file_attributes & 0xff)==0)
def __unicode__(self):
return u'Shared file: %s (FileSize:%d bytes, isDirectory:%s)' % ( self.filename, self.file_size, self.isDirectory )
class _PendingRequest:
def __init__(self, mid, expiry_time, callback, errback, **kwargs):
self.mid = mid
self.expiry_time = expiry_time
self.callback = callback
self.errback = errback
self.kwargs = kwargs
Zerion Mini Shell 1.0