看了tcpcopy的源码,php 和 python 都可以操作raw socket,因此,用php 和 python 实现了tcpcopy,代码比较简单
tcpcopy关键点,理认上来说,只要得到tcp请求报文中数据部分,在ip层转发到测试服务器,即可实现流量复制。
因此,只需要维护tcp会话即可维护一个假的tcp连接,骗过测试服务器即可。
代码实现,主要以TCP状态机为基础,同时考虑抓包的无序问题,结合tcpdump调试,用php实现tcpcopy,用python实现intercept。
以下代码,经测试,客户机发起5000个http请求(大约50个长连接),流量全部会复制到测试机上。
其实,tcpcopy与lvs、nat、运营商流量劫持工作原理类似,都是通过欺骗tcp协议栈达到目的; 同理,通过在应用层处理原始套接字,也可以实现lvs负载均衡功能(后续可能会尝试)。
Code:
1. tcpcopy.php
两个进程工作,一个进程负责抓包并放入queue中; 另一个进程负责消费抓到的数据包,因此对tcpcopy进程效率要求不高。
<?php date_default_timezone_set('PRC');
ini_set('memory_limit','512M');
error_reporting(E_ALL);
ini_set( 'display_errors', 'On' );
ini_set( "log_errors", "On" );
ini_set( "error_log", "/tmp/php_error.log" );
$local_ip = "192.168.56.101";
$src_ip = "192.168.56.101";
$dest_ip = "192.168.56.102";
$src_port = 50000+rand(1,10000);
$src_port = 50000;
$local_udp_port = 20000;
$g_remote_test_ip = "192.168.56.102";
$dest_port = 8080;
$seq_num = 1000000000+rand(1,1000000000);
$seq_num = 1;
$ack_num = 0;
$g_fake_port_indx = 20000;
class RawSocket{
public $s;
private $dest_ip;
private $dest_port;
const FIN = 1;
const SYN = 2;
const ACK = 16;
/*
private $seq_num;
private $ack_num
*/
public function create_listen_udp( $local_ip, $local_port ){
// var_dump( func_get_args( ) );
// $local_ip = "0.0.0.0";
// $local_port = 53;
$s = socket_create(AF_INET, SOCK_DGRAM, SOL_UDP);
// socket_set_nonblock( $s );
$bind_ret = socket_bind($s, $local_ip, $local_port );
if( $s === false
|| $bind_ret === false ){
echo "socket_last_error_str:" . socket_strerror(socket_last_error()) . "\n";
return false;
}
/*
var_dump( socket_getsockname( $s , $addr, $port ) );
var_dump( $addr );
var_dump( $port );
*/
$this->s = $s;
return $this->s;
}
// listen local ip
public function create_listen_socket( $local_ip, $remote_ip=null ){
$one = 1;
$raw_socket = socket_create( AF_INET, SOCK_RAW, getprotobyname("tcp") );
// $raw_socket = socket_create( AF_INET, SOCK_RAW, getprotobyname("icmp") ); /* no need bind,connect, 不能抓不属于自己的包 */
// $raw_socket = socket_create( AF_INET, SOCK_RAW, 1 );
socket_set_nonblock( $raw_socket );
// trick, 3 is stand for header control
$set_ret = socket_set_option( $raw_socket, getprotobyname("ip"), 3, $one);
$conn_ret = $bind_ret = true;
if( isset( $local_ip) ){
// 设置 dest ip
$bind_ret = socket_bind($raw_socket, $local_ip );
}
if( isset( $remote_ip) ){
// 不限制 source_ip
// $conn_ret = socket_connect( $raw_socket, $remote_ip, 0 );
}
// $bind_ret = socket_connect( $raw_socket, $remote_ip, 0 );
// $bind_ret = socket_bind($raw_socket, $local_ip );
if( $raw_socket === false
|| $set_ret === false
|| $conn_ret === false
|| $bind_ret === false ){
echo "socket_last_error_str:" . socket_strerror(socket_last_error()) . "\n";
return false;
}
$this->s = $raw_socket;
return $this->s;
}
// send raw socket to ip
public function create_send_socket( $remote_ip ){
$this->dest_ip = $remote_ip;
$dest_ip_fake = "127.0.0.1";
$dest_ip_fake = "192.168.56.101";
$dest_port_fake = 8080;
$one = 1;
$raw_socket = socket_create( AF_INET, SOCK_RAW, getprotobyname("tcp") );
// $raw_socket = socket_create( AF_INET, SOCK_RAW, getprotobyname("ip") );
socket_set_nonblock( $raw_socket );
// trick, 3 is stand for header control
$set_ret = socket_set_option( $raw_socket, getprotobyname("ip"), 3, $one);
// trick, connect is needed anyway. $dest_ip must by right.
$conn_ret = socket_connect( $raw_socket, $remote_ip, 0 );
// $conn_ret = socket_connect( $raw_socket, $dest_ip_fake, $dest_port );
// trick, for read
// socket_bind($raw_socket, $src_ip );
if( $raw_socket === false
|| $set_ret === false
|| $conn_ret === false ){
echo "socket_last_error_str:" . socket_strerror(socket_last_error()) . "\n";
return false;
}
$this->s = $raw_socket;
return $this->s;
}
public function create_socket( $src_ip, $src_port, $dest_ip=null, $dest_port=null ){
$this->dest_ip = $dest_ip;
$this->dest_port = $dest_port;
$dest_ip_fake = "127.0.0.1";
$dest_ip_fake = "192.168.56.101";
$dest_port_fake = 8080;
$one = 1;
$raw_socket = socket_create( AF_INET, SOCK_RAW, getprotobyname("tcp") );
socket_set_nonblock( $raw_socket );
// trick, 3 is stand for header control
$set_ret = socket_set_option( $raw_socket, getprotobyname("ip"), 3, $one);
// trick, connect is needed anyway. $dest_ip must by right.
// $conn_ret = socket_connect( $raw_socket, $dest_ip, $dest_port );
// $conn_ret = socket_connect( $raw_socket, $dest_ip_fake, $dest_port );
// trick, for read
socket_bind($raw_socket, $src_ip );
if( $raw_socket === false
|| $set_ret === false
|| $conn_ret === false ){
echo "socket_last_error_str:" . socket_strerror(socket_last_error()) . "\n";
return false;
}
$this->s = $raw_socket;
return $this->s;
}
public function socket_read_raw( ){
$read_ret = socket_read( $this->s, 65535 );
if( $read_ret === false ){
$error = socket_last_error();
if( 11 !== $error ){
echo "socket_last_error_str:" . socket_strerror(socket_last_error()) . "\n";
return null;
}
return false;
}
if( strlen($read_ret) > 20 ){
// echo "read_data...\n";
return self::IPUnpack( $read_ret );
}
return null;
}
public function socket_read_udp( ){
$read_ret = socket_recvfrom( $this->s, $buf, 65535, 0, $from='', $port=0 );
//echo $read_ret . "\n";
if( $read_ret === false ){
$error = socket_last_error();
if( 11 !== $error ){
echo "socket_last_error_str:" . socket_strerror(socket_last_error()) . "\n";
return null;
}
return false;
}
if( $read_ret > 20 ){
// echo "udp_read_data...\n";
return self::IPUnpack( $buf );
}
return null;
}
/*
public function socket_recv_raw( ){
$buf = '';
$read_ret = socket_recvfrom( $this->s, $buf, 65535 );
if( $read_ret === false ){
$error = socket_last_error();
if( 11 !== $error ){
echo "socket_last_error_str:" . socket_strerror(socket_last_error()) . "\n";
return null;
}
return false;
}
if( strlen($buf) > 20 ){
echo "read_data...\n";
return $this->IPUnpack( $buf );
}
return null;
}
*/
public function socket_send(
$src_ip, $src_port, $dest_ip, $dest_port,
$seq_num, $ack_num, $tcp_flag,
$tcp_data,$timestamp, $ts_echo ){
$ip_data = self::TCPPacket( ip2long($src_ip), ip2long($dest_ip), $src_port, $dest_port,
$seq_num, $ack_num, $tcp_flag,
$tcp_data, $timestamp, $ts_echo );
// echo "tcp_data_md5:" . md5( $ip_data ) . "\n";
$ip_data = self::IPPacket("tcp", ip2long($src_ip), ip2long($dest_ip), $ip_data );
$write_ret = socket_write( $this->s, $ip_data );
if( $write_ret === false || $write_ret !== strlen($ip_data)){
echo "socket_last_error_str:" . socket_strerror(socket_last_error()) . "\n";
return false;
}
// echo "socket_last_error_str:" . socket_strerror(socket_last_error()) . "\n";
// echo "write_ret:" . json_encode( $write_ret ) . "\n";
return $write_ret;
}
/* IP header */
/*
versionAndHeaderlen: 1Byte
service: 1Byte
totalLen: 2Bytes
PacketID: 2Bytes
SliceInfo: 2Bytes
TTL: 1Byte
type: 1Byte
checksum: 2Bytes ==> just ip header, 16bits fan ma sum
srcIP: 4Bytes
destIP: 4Bytes
*/
public static function IPUnpack( $packet ){
$arr = unpack("Cverlen/x/ntotal_len/x4/Cttl/Ctype/ncheck_sum/Nsrc_ip/Ndest_ip/x*", $packet);
$arr['version'] = $arr['verlen'] >> 4;
$arr['header_len'] = ($arr['verlen'] & 0x0f) check_sum( $header ));
return $header . $data;
}
/* TCP header */
/*
srcPort: 2Bytes
destPort: 2Bytes
seqNum: 4Bytes
ackNum: 4Bytes
headerLenAndFlag: 2Byte ==> 4Bits(Len)+6Bits(reserved)+(U,ACK,PSH,RST,SYN,FIN)
windowSize: 2Bytes
checkSum: 2Bytes ==> tcp header + tcp data
urgentPoint: 2Bytes
*/
/*
* opt: kind(8bit)+len(8bit)+content
*/
public static function TCPUnpack( $packet ){
$arr = unpack("nsrc_port/ndest_port/Nseq_num/Nack_num/nhdrlen_flag/nwindow_size/ncheck_sum/nurgent/xtcp_data", $packet."*" );
$arr['header_len'] = ($arr['hdrlen_flag'] >> 12 ) >1) & 0x01) ? true : false;
$arr['RST'] = (($flag>>2) & 0x01) ? true : false;
$arr['ACK'] = (($flag>>4) & 0x01) ? true : false;
$arr['tcp_data'] = strlen($packet) == $arr['header_len'] ? '': substr( $packet, $arr['header_len'] );
return $arr;
}
public static function TCPPacket( $src_ip, $dest_ip, $src_port, $dest_port, $seq_num, $ack_num, $flag,
$tcp_data, $timestamp=null, $ts_echo=null ){
$window_size = 6000;
$chk_sum = 0;
$header_len = 20 >> 2;
$header_option = "";
if( $timestamp !== null ){
$header_option = pack("CCNNn", 8, 10, $timestamp, $ts_echo, 0);
$header_len = (20+12) >> 2;
}
$i = 2;
while( $i -- ){
$tcp_header = pack("nn"."N"."N"."nn"."nn",
$src_port, $dest_port,
$seq_num,
$ack_num,
($header_len > 16 ){
$chk_sum = ($chk_sum >> 16) + ($chk_sum & 0xffff);
}
$chk_sum = 0xffff & ~$chk_sum;
if( true || $need_pack ){
$chk_sum = pack("n*", $chk_sum );
return $chk_sum;
}
return $chk_sum;
}
}
$TCP_SYN = 1create_send_socket($dest_ip);
/*
$raw_socket_1->socket_send( $src_ip, $src_port, $dest_ip, $dest_port,
$seq_num, $ack_num, $tcp_flag,
$tcp_data, $timestamp, $ts_echo );
*/
$raw_socket_2 = new RawSocket( );
$s2 = $raw_socket_2->create_listen_socket( /*local_ip*/ $local_ip, /*$dest_ip*/ null );
/*
while( true ){
$read_ret = $raw_socket_2->socket_read_raw( );
if( $read_ret !== false && null !== $read_ret ){
echo json_encode( $read_ret ) . "\n";
}
}
*/
$raw_socket_3= new RawSocket( );
$s3 = $raw_socket_3->create_listen_udp( /*local_ip*/ $local_ip, /*$dest_ip*/ $local_udp_port );
/*
while( true ){
$read_ret = $raw_socket_3->socket_read_udp( );
if( $read_ret !== false && null !== $read_ret ){
echo json_encode( $read_ret ) . "\n";
}
}
*/
$socket_map = array(
(string)($s1) => array('type'=>'send_raw', 'obj'=>$raw_socket_1),
(string)($s2) => array('type'=>'read_raw', 'obj'=>$raw_socket_2),
(string)($s3) => array('type'=>'read_udp', 'obj'=>$raw_socket_3),
);
// var_dump( $socket_map );
/*
$raw_socket_4 = new RawSocket();
$raw_socket_4->create_listen_socket($local_ip);
while( true ){
$read_ret = $raw_socket_4->socket_recv_raw( );
if( $read_ret !== false && null !== $read_ret ){
echo json_encode( $read_ret ) . "\n";
}
}
*/
$g_real_map = array();
$g_fake_map = array();
$g_fake_request_info = array(
'real_ip'=>'',
'real_port'=>'',
'fake_ip'=>'',
'fake_port'=>'',
'send_data_len'=>0,
'receive_data_len'=>0,
'send_data_count'=>0,
'init_seq'=>0,
'next_seq'=>0,
'next_ack'=>0,
'need_deal'=>array(),
'need_deal_seq_min'=>0,
'need_deal_seq_next'=>0,
'update_time'=>0,
'state'=>'INIT',
'update_time'=>0,
'real_next_seq'=>0, // 与 next_seq 同步更新
'real_init_seq'=>0,
'test_init_seq'=>0, // 测试服务器开始序号
'latest_ack'=>0, // 测试服务器最后的确认
);
function add_need_deal_packet( & $fake_info, & $ip_packet, $real_time_request=true ){
global $g_cur_version;
$ip_packet['cur_version'] = $g_cur_version;
$ip_packet['enqueue_state'] = true;
isset( $ip_packet['enqueue_count'] )? $ip_packet['enqueue_count']++ : $ip_packet['enqueue_count'] = 1;
$fake_info['need_deal'][] = $ip_packet;
if( count($fake_info['need_deal']) == 1 ){
$fake_info['need_deal_seq_min'] = $fake_info['need_deal_seq_max'] = $ip_packet['tcp']['seq_num'];
$fake_info['need_deal_seq_next'] = $ip_packet['tcp']['seq_num'];
}else if( $real_time_request && $fake_info['need_deal_seq_next'] != $ip_packet['tcp']['seq_num'] ){
echo "ip_packet:" . json_encode( $ip_packet ) . "\n";
$tmp_fake_info = $fake_info;
$tmp_fake_info['need_deal_count'] = count( $tmp_fake_info['need_deal'] );
unset( $tmp_fake_info['need_deal'] );
echo "fake_info: " . json_encode( $tmp_fake_info ) . "\n";
echo ( "FATAL, may be lost packet\n" );
}
if( $real_time_request ){
$fake_info['need_deal_seq_next'] = get_next_seq( $fake_info['need_deal_seq_next'], $ip_packet['tcp']['data_len'] ) ;
}
}
$g_cur_version = 1;
function get_offset( $cur, $old ){
$offset = $cur - $old;
if( $offset (0xffffffff>>1) ){
$offset += (0xffffffff+1);
}
return $offset;
}
function get_next_seq( $cur, $inc ){
$next = $cur + $inc;
if( $next > 0xffffffff ){
$next %= (0xffffffff+1);
}
return $next;
}
function is_before( $cur, $old ){
$diff = $cur - $old;
if( $diff > 0 ) return true;
if( $diff >1) ) return true;
return false;
}
function is_after_or_equal( $cur, $old ){
$diff = $cur - $old;
if( $diff >= 0 ) return true;
if( $diff >1) ) return true;
return false;
}
function is_before_or_equal( $cur, $old ){
return is_after_or_equal( $old, $cur );
}
function is_after( $cur, $old ){
return is_before( $old, $cur );
}
function is_real_after( $fake_info, $cur ){
$old = $fake_info['real_next_seq'];
$diff = $cur - $old;
if( $diff > 0 ) return true;
//if( $diff (0xffffffff>>1) ) return true;
if( $diff >1) ) return true;
return false;
}
function is_real_before( $fake_info, $cur ){
return ! is_real_after($fake_info, $cur );
}
function is_real_equal( $fake_info, $cur ){
return $fake_info['real_next_seq'] == $cur;
}
function update_next_seq( & $fake_info, $inc ){
$fake_info['next_seq'] = get_next_seq( $fake_info['next_seq'] , $inc );
$fake_info['real_next_seq'] = get_next_seq( $fake_info['real_next_seq'] , $inc );
}
function update_next_ack( & $fake_info, $inc ){
$fake_info['next_ack'] = get_next_seq( $fake_info['next_ack'] , $inc );
}
/*
function get_fake_offset( $fake_info, $cur ){
return get_offset( $cur , $fake_info['next_seq'] );
}
function get_real_offset( $fake_info, $cur ){
return get_offset( $cur , $fake_info['real_next_seq'] );
}
*/
function set_update_time( & $fake_info ){
$cur = intval( microtime( true ) * 1000 );
$fake_info['update_time'] = $cur;
}
function deal_delay_data( & $fake_info, $not_crontab = true ){
global $g_cur_version;
if( $not_crontab ) {
set_update_time( $fake_info );
}
if( count($fake_info['need_deal']) = $latest_undeal_version ){
break;
}
break;
if( 0 == count($fake_info['need_deal']) ){
break;
}
}
echo "need_deal_END\n";
}
function crontab_task( ){
global $g_fake_map, $g_real_map;
// echo "crontab_task..............\n";
$now = intval( microtime(true)*1000 );
if( count( $g_real_map ) == 0 ){
// echo "g_real_map is emtpy\n";
}else{
// echo "g_real_map count:" . count( $g_real_map ) . "\n";
}
foreach( $g_real_map as & $fake_info ){
/*
echo "crontab_task................................\n";
$update_time = $fake_info['update_time'];
echo "now[ $now ], update_time[ $update_time ]\n";
echo sprintf("now_update_time_diff:%d\n", $now - $update_time);
*/
$diff = $now - $fake_info['update_time'];
// echo "diff: " . $diff . "\n";
if( count($fake_info['need_deal']) > 0 ){
//&& ($now - $fake_info['update_time'] > -1) ){
deal_delay_data( $fake_info, false );
}
// echo $fake_info['state'] . "\n";
if( $fake_info['state'] == 'TIME_WAIT' && $diff > 1000*3 ){
$real_ip_port_key = $fake_info['real_ip'] .":" . $fake_info['real_port'];
$fake_ip_port_key = $fake_info['fake_ip'] .":" . $fake_info['fake_port'];
unset( $g_real_map[ $real_ip_port_key ] );
unset( $g_fake_map[ $fake_ip_port_key ] );
return;
}else if( $diff > 1000*3 ){
// var_dump( $fake_info );
// die( 0 );
}
}
}
function receive_test_server_request( $ip_packet ){
global $g_real_map, $g_fake_map, $g_real_request_info, $g_fake_request_info;
global $g_send_socket;
global $g_remote_test_ip;
global $g_cur_version;
$cur_time = microtime( true );
// echo "receive_test_server_response.....................test_server\n";
$TCP_SYN = 1socket_send( $fake_info['fake_ip'], $fake_info['fake_port'], $src_ip, $src_port,
$fake_info['next_seq'], $fake_info['next_ack'], $TCP_ACK,
'', null, null);
deal_delay_data( $fake_info );
return;
}else if( $status == 'ESTABLISHED' ){
echo "WARNING: receive dumplicated syn from test server.\n";
deal_delay_data( $fake_info );
return;
}
/*
log2( sprintf("line[%d],%s", __LINE__ , "WARNING: syn from test server, status not match:\nfake_info:" . json_encode( $fake_info )
. ";\nip_packet:" . json_encode($ip_packet)) );
packet_debug( $ip_packet );
*/
return;
}
if( is_after_or_equal( $ack_num, $fake_info['latest_ack'] ) ){
$fake_info['latest_ack'] = $ack_num;
}
// $fake_info['latest_ack'] = $ack_num;
//服务端返回数据.
if( $flag_ack
&& ! $flag_fin
&& ! $flag_rst
&& $tcp_data_len > 0 ){
// && is_before_or_equal( $ack_num, $fake_info['next_seq'] ) // 过时的ack
// && is_before_or_equal( $seq_num, $fake_info['next_ack'] ) ){ // 过时的seq
if( $seq_num == $fake_info['next_ack'] ){
update_next_ack( $fake_info, $tcp_data_len );
}
$g_send_socket->socket_send( $fake_info['fake_ip'], $fake_info['fake_port'], $src_ip, $src_port,
$fake_info['next_seq'], $fake_info['next_ack'], $TCP_ACK,
'', null, null);
deal_delay_data( $fake_info );
return;
}
// 测试服务器返回数据包无序, 返回数据包的ack_num可以比fake_info的seq小,因为fake_client 可以在没有收到ack的情况下继续发数据包.
if( $seq_num != $fake_info['next_ack'] ){
// echo ( sprintf("line[%d],%s", __LINE__ , "WARNING: receive unsorted packet from test server :\nfake_info:" . json_encode( $fake_info )
// . ";\nip_packet:" . json_encode($ip_packet)) );
deal_delay_data( $fake_info );
return;
}
// 收到FIN
if( $flag_fin ){
// fake client 被动关闭
if( $fake_info['state'] == 'ESTABLISHED' ){
$fake_info['state'] = 'CLOSE_WAIT';
//$fake_info['next_ack'] += (1 + $tcp_data_len);
update_next_ack( $fake_info, 1+$tcp_data_len );
$fake_info['state'] = 'LAST_ACK';
$g_send_socket->socket_send( $fake_info['fake_ip'], $fake_info['fake_port'], $src_ip, $src_port,
$fake_info['next_seq'], $fake_info['next_ack'], $TCP_FIN | $TCP_ACK,
'', null, null);
//$fake_info['next_seq']++;
update_next_seq( $fake_info, 1 );
return;
// fake client 主动关闭
} else if( $fake_info['state'] == 'TIME_WAIT' ) {
echo ("WARNING: receive FIN from test server, fake_info state is TIME_WAIT, " . json_encode( $fake_info )
. ";\nip_packet:" . json_encode($ip_packet) );
return;
// 同时关闭
}else if( $fake_info['state'] == 'FIN_WAIT_1'){
// $fake_info['next_ack'] += 1 + $tcp_data_len;
update_next_ack( $fake_info, 1+$tcp_data_len );
$g_send_socket->socket_send( $fake_info['fake_ip'], $fake_info['fake_port'], $src_ip, $src_port,
$fake_info['next_seq'], $fake_info['next_ack'], $TCP_ACK,
'', null, null);
$fake_info['state'] = 'CLOSING';
return;
// 主动关闭对方ACK 先于FIN到达
}else if( $fake_info['state'] == 'FIN_WAIT_2'){
//$fake_info['next_ack'] += 1 + $tcp_data_len;
update_next_ack( $fake_info, 1+$tcp_data_len );
$g_send_socket->socket_send( $fake_info['fake_ip'], $fake_info['fake_port'], $src_ip, $src_port,
$fake_info['next_seq'], $fake_info['next_ack'], $TCP_ACK,
'', null, null);
$fake_info['state'] = 'TIME_WAIT';
return;
}
log2( "WARNING: fin from test server, status not match, fake_info:" . json_encode( $fake_info ) );
packet_debug( $ip_packet );
return;
}
if( $flag_rst ){
$msg = "recv RST from test server";
log2( $msg );
return;
}
if( $flag_ack
&& ! $flag_fin
&& ! $flag_rst
&& in_array($status, array('FIN_WAIT_1', 'LAST_ACK', 'CLOSING'))
&& $tcp_data_len == 0 ){
// 主动关闭,收到FIN的ack.
if( $status == 'FIN_WAIT_1' ){
// echo "receive FIN_WAIT_1 ACK !!!!!!!!!!!!!!!!!!!!!!!!\n";
$fake_info['state'] = 'FIN_WAIT_2';
return;
}
// 被动关闭,收到FIN的ack.
if( $status == 'LAST_ACK' ){
$fake_info['state'] = 'CLOSED';
return;
}
// 同时关闭.
if( $status == 'CLOSING' ){
$fake_info['state'] = 'TIME_WAIT';
return;
}
}
if( $flag_ack
&& ! $flag_fin
&& ! $flag_rst
&& in_array($status , array( 'ESTABLISHED', 'TIME_WAIT', 'FIN_WAIT_2') )
&& $tcp_data_len == 0 ){
if( $ack_num 0 ){
echo "Notice: " . $type . "\n";
$deal_real_time_request = false;
$deal_retry = true;
}
echo sprintf("DEBUG: %d : %d\n",
$deal_real_time_request, isset($ip_packet['cur_version']) ? $ip_packet['cur_version'] : -1);
$src_ip = $ip_packet['src_ip']; $src_port = $ip_packet['tcp']['src_port'];
$dest_ip = $ip_packet['dest_ip']; $dest_port = $ip_packet['tcp']['dest_port'];
$tcp_hdr = $ip_packet['tcp'];
$flag_syn = $tcp_hdr['SYN']; $flag_ack = $tcp_hdr['ACK'];
$flag_fin = $tcp_hdr['FIN']; $flag_rst = $tcp_hdr['RST'];
$seq_num = $tcp_hdr['seq_num']; $ack_num = $tcp_hdr['ack_num'];
$tcp_data = $tcp_hdr['tcp_data'];
$tcp_data_len = strlen( $tcp_data );
$flag_str = '';
if( $flag_ack ){ $flag_str .= "ACK"; }
if( $flag_syn ){ $flag_str .= "SYN"; }
if( $flag_fin ){ $flag_str .= "FIN"; }
if( $flag_rst ){ $flag_str .= "RST"; }
$ip_port_key = $src_ip . ":" . $src_port;
$cur = intval( microtime(true)*1000 );
// 建立连接
if( $flag_syn === true && $flag_ack === false ){
if( isset($g_real_map[ $ip_port_key ]) ){
$fake_info = & $g_real_map[ $ip_port_key ];
if( $fake_info['real_init_seq'] != $seq_num ){
$fake_ip_port_key = $fake_info['fake_ip'] .":" . $fake_info['fake_port'];
unset( $g_real_map[ $ip_port_key ] );
unset( $g_fake_map[ $fake_ip_port_key ] );
}else{
return;
}
}
echo "receive REAL_SYN ,ip_packet:" . json_encode($ip_packet) . "\n";
//$fake_ip = $src_ip; $fake_port = $src_port;
//$fake_ip = "11.11.11.11";
$fake_ip = "193.168.56.121";
$g_fake_port_indx ++;
if( $g_fake_port_indx > 60000 ){
$g_fake_port_indx = 20000;
}
$fake_port = $g_fake_port_indx;
$real_ip_port_key = $src_ip .":" . $src_port;
$fake_ip_port_key = $fake_ip .":" . $fake_port;
$g_fake_map[ $fake_ip_port_key ] = $g_fake_request_info;
$g_real_map[ $real_ip_port_key ] = & $g_fake_map[ $fake_ip_port_key ];
$fake_info = & $g_fake_map[ $fake_ip_port_key ];
$fake_info['real_ip'] = $src_ip;
$fake_info['real_port'] = $src_port;
$fake_info['fake_ip'] = $fake_ip;
$fake_info['fake_port'] = $fake_port;
$fake_info['real_next_seq'] = $seq_num + 1;
$fake_info['relative_seq'] = $fake_info['next_seq'] = $fake_info['init_seq'] = 0xffffffff;
$fake_info['relative_seq'] = $fake_info['next_seq'] = $fake_info['init_seq'] = $seq_num;
$fake_info['real_relative_seq'] = $fake_info['real_next_seq'] = $fake_info['real_init_seq'] = $seq_num;
$fake_info['state'] = 'INIT';
$fake_info['update_time'] = $cur;
// 发送syn数据包,建立连接.
/*
RawSocket::socket_send( $src_ip, $src_port, $dest_ip, $dest_port,
$seq_num, $ack_num, $tcp_flag,
$tcp_data,$timestamp, $ts_echo );
*/
$g_send_socket->socket_send( $fake_ip, $fake_port, $g_remote_test_ip, $dest_port,
$fake_info['next_seq'], 0, $TCP_SYN,
'', null, null);
$fake_info['state'] = 'SYN_SEND';
/*
$fake_info['next_seq'] += 1;
$fake_info['real_next_seq'] += 1;
*/
update_next_seq( $fake_info, 1 );
echo "### receive real syn ################## SEND SYN\n";
/*
var_dump( $fake_info );
var_dump( $g_remote_test_ip );
die( 0 );
*/
return;
}
$real_ip_port_key = $src_ip .":" . $src_port;
if( ! isset( $g_real_map[ $real_ip_port_key ] ) ){
echo "WARNING: real_ip_port_key, no fake_info, " . ", ip_packet:" . json_encode($ip_packet);
return;
}
$fake_info = & $g_real_map[ $real_ip_port_key ];
$fake_ip = $fake_info['fake_ip'];
$fake_port = $fake_info['fake_port'];
$real_offset =get_offset( $seq_num, $fake_info['real_next_seq'] );
if( $tcp_data_len > 0 || true ){
echo sprintf("DEBUG: type[$type], real_offset, data_len, flags, [ %d ][ %d ][ %s ]\n",
$real_offset, $tcp_data_len, $flag_str);
}
// fake client 处理较慢
//if( is_real_after($fake_info, $seq_num) && $tcp_data_len > 0 ){
if( $real_offset > 0 && $tcp_data_len > 0 ){
echo sprintf("NOTICE: test is slow, real_offset[%d], tcp_data_len[%d]\n", $real_offset, $tcp_data_len);
echo sprintf("line[%d], %s", __LINE__ , "ADD NEED DEAL DATA\n");
/*
$ip_packet['cur_version'] = $g_cur_version;
$fake_info['need_deal'][] = $ip_packet;
*/
add_need_deal_packet( $fake_info, $ip_packet, $deal_real_time_request );
if( $deal_real_time_request ){
echo "will deal_delay_data\n";
deal_delay_data( $fake_info );
}
return;
}
if( $real_offset 0 ){
echo "FATAL: fin packet with tcp_data_len > 0, ip_packet: " . json_encode( $ip_packet ) . "\n";
die( 255 );
}
if( $fake_info['state'] == 'ESTABLISHED'
&& $real_offset == 0 && is_after_or_equal($fake_info['latest_ack'], $fake_info['next_seq'])
&& $cur - $fake_info['update_time'] > 30 * 1000 // 30s
){
$g_send_socket->socket_send( $fake_ip, $fake_port, $g_remote_test_ip, $dest_port,
$fake_info['next_seq'], $fake_info['next_ack'], $TCP_FIN | $TCP_ACK,
'', null, null);
$fake_info['state'] = 'FIN_WAIT_1';
// 更新next_seq, real_next_seq
update_next_seq( $fake_info, 1 );
echo "### receive real fin ################## SEND FIN\n";
return;
}else{
// return;
/*
$tmp = $fake_info;
$tmp['need_deal'] = count( $tmp['need_deal'] );
echo sprintf( "line[%d],%s", __LINE__ , "WARNING: receive FIN from real client, fake info state is not ESTABLISHED, fake_info:"
. json_encode( $tmp )
. ", ip_packet:" . json_encode($ip_packet) );
*/
add_need_deal_packet( $fake_info, $ip_packet, $deal_real_time_request );
if( $deal_real_time_request ){
echo "will deal_delay_data\n";
deal_delay_data( $fake_info );
}
return;
}
return;
}
if( $flag_rst ){
$msg = "WARNING, recv RST from real client";
log2( $msg );
return;
}
if( $flag_ack && $tcp_data_len > 0 ){
//if( $fake_info['state'] == 'ESTABLISHED' && is_after_or_equal($fake_info['latest_ack'], $fake_info['next_seq']) ){
if( $fake_info['state'] == 'ESTABLISHED' ){
echo "### receive real data ################## SEND DATA\n";
$g_send_socket->socket_send( $fake_ip, $fake_port, $g_remote_test_ip, $dest_port,
$fake_info['next_seq'], $fake_info['next_ack'], $TCP_ACK | $TCP_PSH,
$tcp_data, null, null);
$fake_info['send_data_len'] += $tcp_data_len;
$fake_info['send_data_count'] ++;
// 更新next_seq, real_next_seq
update_next_seq( $fake_info, $tcp_data_len );
if( isset($ip_packet['cur_version']) ){
echo "NOTICE: deal backup data success\n";
}
}else{
echo sprintf("line[%d], %s", __LINE__ , "ADD NEED DEAL DATA\n");
add_need_deal_packet( $fake_info, $ip_packet, $deal_real_time_request );
}
if( $deal_real_time_request ){
echo "will deal_delay_data 2\n";
deal_delay_data( $fake_info );
}
return;
}
if( $flag_ack
&& ! $flag_fin
&& ! $flag_rst
&& 0 == $tcp_data_len ){
echo "### receive real ack #################### IGNORE ACK\n";
return;
}
/*
log2( sprintf("line[%d],%s", __LINE__ , "WARNING: no default, receive packet from client, status not match, fake_info:"
. json_encode( $fake_info ) )
. ", ip_packet:" . json_encode($ip_packet) );
packet_debug( $ip_packet );
echo "\n";
*/
$tmp = $fake_info;
$tmp['need_deal'] = count( $tmp['need_deal'] );
echo sprintf( "WARNING, need die, line[%d],%s", __LINE__ , ", fake_info:"
. json_encode( $tmp )
. ", ip_packet:" . json_encode($ip_packet) . "\n" );
return;
return;
}
function log2( $msg ){
echo $msg . "\n";
echo "back_trace: " . json_encode( debug_backtrace() ) . "\n";
}
function packet_debug( $ip_packet ){
$src_ip = $ip_packet['src_ip']; $src_port = $ip_packet['tcp']['src_port'];
$dest_ip = $ip_packet['dest_ip']; $dest_port = $ip_packet['tcp']['dest_port'];
$tcp_hdr = $ip_packet['tcp'];
$flag_syn = $tcp_hdr['SYN']; $flag_ack = $tcp_hdr['ACK'];
$flag_fin = $tcp_hdr['FIN']; $flag_rst = $tcp_hdr['RST'];
$seq_num = $tcp_hdr['seq_num']; $ack_num = $tcp_hdr['ack_num'];
$tcp_data = $tcp_hdr['tcp_data'];
$ip_port_key = $src_ip . ":" . $src_port; $cur = time();
echo sprintf("read_raw_tcp: %s:%s --> %s:%s\n", $src_ip, $src_port, $dest_ip, $dest_port );
echo sprintf("\t: seq_num[%d], ack_num[%d], SYN:%d, ACK:%d, FIN:%d, RST:%d\n",
$tcp_hdr['seq_num'], $tcp_hdr['ack_num'],
$tcp_hdr['SYN'], $tcp_hdr['ACK'], $tcp_hdr['FIN'], $tcp_hdr['RST']);
}
$select_read = array( $s2, $s3 );
// $select_read = array( $s3 );
$mq_key = ftok( dirname(__FILE__), 'a');
$mq = msg_get_queue($mq_key, 0666);
msg_remove_queue( $mq );
$mq = msg_get_queue($mq_key, 0666);
$pid = pcntl_fork();
if( $pid == 0 ){
// tcpcopy进程,从mq里拿数据包,发送伪造请求报文 或 回复test server报文。
while( true ){
$ret = msg_receive($mq, 0, $message_type=1, 10240, $m, true, MSG_IPC_NOWAIT);
if( $ret == false ){
crontab_task( );
continue;
}
$ip_packet = json_decode( $m, true );
switch( $ip_packet['from'] ){
case 'read_raw':
receive_real_request( $ip_packet );
break;
case 'send_raw':
// echo "need send_raw\n";
break;
case 'read_udp':
// receive_test_server_packet
receive_test_server_request( $ip_packet );
break;
default:
echo "NOTICE:error\n";
break;
}
}
}else{
// 抓包进程,单纯从socket接收IP报文,防止进程过慢而丢包.
$need_send = array();
while( true ){
$need_read = $select_read;
$select_ret = socket_select( $need_read, $need_write = null, $expect, 1, 0 );
if( false === $select_ret ){
echo "socket_last_error_str:" . socket_strerror(socket_last_error()) . "\n";
continue;
}
if( $select_ret 0 ){
foreach( $need_read as $s ){
$type = $socket_map[ (string)$s ]['type'];
$obj = $socket_map[ (string)$s ]['obj'];
switch( $type ){
case 'read_raw':
// echo "need_read_raw\n";
$read_ret = $obj->socket_read_raw( );
if( $read_ret === false || null === $read_ret ){
continue;
// echo json_encode( $read_ret ) . "\n\n";
}else{
// echo json_encode( $read_ret ) . "\n\n";
}
// receive_real_packet
// receive_real_request( $read_ret );
$ip_packet = & $read_ret;
$ip_packet['from'] = 'read_raw';
// $ret = msg_send($mq, 1, json_encode( $ip_packet), true, false, $msg_err );
$need_send[] = $ip_packet;
break;
case 'send_raw':
// echo "need send_raw\n";
break;
case 'read_udp':
// echo "need read udp --------------------- read udp packet\n";
$read_ret = $obj->socket_read_udp( );
if( $read_ret === false || null === $read_ret ){
continue;
}else{
// echo json_encode( $read_ret ) . "\n\n";
}
// receive_test_server_packet
// receive_test_server_request( $read_ret );
$ip_packet = & $read_ret;
$ip_packet['from'] = 'read_udp';
// $ret = msg_send($mq, 1, json_encode( $ip_packet), true, false, $msg_err );
$need_send[] = $ip_packet;
break;
default:
echo "NOTICE:error\n";
break;
}
if( false && $ret == false ){
$mq_stat = msg_stat_queue( $mq );
echo "NOTICE:" . $mq_stat['msg_qnum'] . "\n";
echo "FATAL: msg_send_ret false\n";
var_dump( $msg_err );
//die( "FATAL: msg_send_error" );
$need_send[] = $ip_packet;
}
}//foreach
}//if
$mq_stat = msg_stat_queue( $mq );
if( $mq_stat['msg_qnum'] > 100 ){
continue;
}
if( count($need_send) > 0 ){
foreach( $need_send as $k => $ip_packet ){
$ret = msg_send($mq, 1, json_encode( $ip_packet), true, false, $msg_err );
if( $ret ==true ){
unset( $need_send[$k] );
$mq_stat = msg_stat_queue( $mq );
if( $mq_stat['msg_qnum'] > 100 ){
break;
}
}else{
break;
}
}
}
}//while
die( 0 );
}
while( true ){
$need_read = $select_read;
$select_ret = socket_select( $need_read, $need_write = null, $expect, 1, 0 );
if( false === $select_ret ){
echo "socket_last_error_str:" . socket_strerror(socket_last_error()) . "\n";
continue;
}
if( $select_ret 0 ){
foreach( $need_read as $s ){
$type = $socket_map[ (string)$s ]['type'];
$obj = $socket_map[ (string)$s ]['obj'];
switch( $type ){
case 'read_raw':
// echo "need_read_raw\n";
$read_ret = $obj->socket_read_raw( );
if( $read_ret === false || null === $read_ret ){
continue;
// echo json_encode( $read_ret ) . "\n\n";
}else{
// echo json_encode( $read_ret ) . "\n\n";
}
// receive_real_packet
receive_real_request( $read_ret );
break;
case 'send_raw':
// echo "need send_raw\n";
break;
case 'read_udp':
// echo "need read udp --------------------- read udp packet\n";
$read_ret = $obj->socket_read_udp( );
if( $read_ret === false || null === $read_ret ){
continue;
}else{
// echo json_encode( $read_ret ) . "\n\n";
}
// receive_test_server_packet
receive_test_server_request( $read_ret );
break;
default:
echo "NOTICE:error\n";
break;
}
}
}
}
die( 0 );
function get_asc( $str ){
echo "get_asc:\n";
$arr = str_split( $str,1 );
foreach( $arr as $v ){
echo ord( $v ) . "," . bin2hex($v) . "\n";
}
echo "\n";
}
function str2int( $str, $size=4 ){
$ret = 0;
for( $i=0; $i
<p> </p>
<p> </p>
<p> </p>
<p>2. intercept.py</p>
<p>抓到测试服务器返回的数据,将其发送到tcpcopy进程。</p>
<pre class="brush:php;toolbar:false">#!/usr/bin/python
import socket
import struct
import binascii
remote_addr = ("192.168.56.101", 20000)
address=('localhost',20000)
udp_s=socket.socket(socket.AF_INET,socket.SOCK_DGRAM)
#udp_s.bind( address )
#print udp_s.getsockname()
s=socket.socket(socket.PF_PACKET,socket.SOCK_RAW,socket.htons(0x0800))
while True:
pkt = s.recvfrom(65532)
#print pkt[1]
ethernetHeader=pkt[0][0:14]
eth_hdr = struct.unpack("!6s6s2s",ethernetHeader)
#print eth_hdr
<span style="white-space:pre"> </span>
eth_hdr2 = struct.unpack("!6s6sH",ethernetHeader)
if( eth_hdr2[2] != 0x0800 ):
continue
print 'IP:'
print len(pkt[0])
ipHeader = pkt[0][14:34]
ip_hdr = struct.unpack("!12s4s4s",ipHeader)
#ip_header_len = 4* (ord(ip_hdr[0][0]) & 0xf)
ip_header_len = (struct.unpack("!1B11x", ip_hdr[0])[0] & 0x0f) > 12)
print tcp_hdr_len
ip_tcp_header = pkt[0][14:14+ip_header_len+tcp_hdr_len]
print len(ip_tcp_header)
print "real_len:%d, ip:%d, tcp:%d" % ((ip_header_len + tcp_hdr_len), ip_header_len, tcp_hdr_len )
print remote_addr
ret = udp_s.sendto( ip_tcp_header, remote_addr )
print ret
print "Source IP address:"+socket.inet_ntoa(ip_hdr[1])
print "Destination IP address:"+socket.inet_ntoa(ip_hdr[2])
# tcpHeader = pkt[0][34:54]
# tcp_hdr = struct.unpack("!HH16s",tcpHeader)
3. 环境设置:
1). 环境介绍:
101: centos4, online server.
104: centos5, fake router.
102: centos4-1, test server.
103: centos4-2, real client.
2). 102设置路由:
route add -host 193.168.56.121 gw 192.168.56.104
4. 注意:
104 上禁用 ICMP redirects。
原本想用PHP写raw socket玩玩的,原来看过tcpcopy代码,用php写了个试试,没想还跑通了...
Stellungnahme
Der Inhalt dieses Artikels wird freiwillig von Internetnutzern beigesteuert und das Urheberrecht liegt beim ursprünglichen Autor. Diese Website übernimmt keine entsprechende rechtliche Verantwortung. Wenn Sie Inhalte finden, bei denen der Verdacht eines Plagiats oder einer Rechtsverletzung besteht, wenden Sie sich bitte an admin@php.cn
Wie funktioniert der Php -Typ -Hinweis, einschließlich Skalartypen, Rückgabetypen, Gewerkschaftstypen und nullbaren Typen?Apr 17, 2025 am 12:25 AMPHP -Typ -Eingabeaufforderungen zur Verbesserung der Codequalität und der Lesbarkeit. 1) Tipps zum Skalartyp: Da Php7.0 in den Funktionsparametern wie int, float usw. angegeben werden dürfen. 3) Eingabeaufforderung für Gewerkschaftstyp: Da Php8.0 in Funktionsparametern oder Rückgabetypen angegeben werden dürfen. 4) Nullierstyp Eingabeaufforderung: Ermöglicht die Einbeziehung von Nullwerten und Handlungsfunktionen, die Nullwerte zurückgeben können.
Wie handelt es sich bei PHP -Objektklonen (Klonschlüsselwort) und der __clone Magic -Methode?Apr 17, 2025 am 12:24 AMVerwenden Sie in PHP das Klonschlüsselwort, um eine Kopie des Objekts zu erstellen und das Klonierungsverhalten über die \ _ \ _ Clone Magic -Methode anzupassen. 1. Verwenden Sie das Klonschlüsselwort, um eine flache Kopie zu erstellen und die Eigenschaften des Objekts, nicht die Eigenschaften des Objekts zu klonen. 2. Die \ _ \ _ Klonmethode kann verschachtelte Objekte tief kopieren, um flache Kopierprobleme zu vermeiden. 3. achten Sie darauf, dass kreisförmige Referenzen und Leistungsprobleme beim Klonen vermieden werden, und optimieren Sie die Klonierungsvorgänge, um die Effizienz zu verbessern.
PHP vs. Python: Anwendungsfälle und AnwendungenApr 17, 2025 am 12:23 AMPHP eignet sich für Webentwicklungs- und Content -Management -Systeme, und Python eignet sich für Datenwissenschafts-, maschinelles Lernen- und Automatisierungsskripte. 1.PHP hat eine gute Leistung beim Erstellen von schnellen und skalierbaren Websites und Anwendungen und wird üblicherweise in CMS wie WordPress verwendet. 2. Python hat sich in den Bereichen Datenwissenschaft und maschinelles Lernen mit reichen Bibliotheken wie Numpy und TensorFlow übertrifft.
Beschreiben Sie verschiedene HTTP-Caching-Header (z. B. Cache-Control, ETAG, Last-modifiziert).Apr 17, 2025 am 12:22 AMZu den wichtigsten Spielern in HTTP-Cache-Headern gehören Cache-Control, ETAG und Last-modifiziert. 1.Cache-Control wird verwendet, um die Richtlinien zu kontrollieren. Beispiel: Cache-Control: max-ay = 3600, öffentlich. 2. ETAG überprüft Ressourcenänderungen durch eindeutige Identifikatoren, Beispiel: ETAG: "686897696A7C876B7E". 3. Last-modifiziert gibt die letzte Änderungszeit der Ressource an, Beispiel: Last-Modified: Mi, 21okt201507: 28: 00GMT.
Erklären Sie sicheres Kennwort -Hashing in PHP (z. B. password_hash, password_verify). Warum nicht MD5 oder SHA1 verwenden?Apr 17, 2025 am 12:06 AMIn PHP sollten die Funktionen für Passwort_Hash und passwart_verify verwendet werden, um sicheres Passwort -Hashing zu implementieren, und MD5 oder SHA1 sollte nicht verwendet werden. 1) Passwort_hash generiert einen Hash, der Salzwerte enthält, um die Sicherheit zu verbessern. 2) Passwort_Verify prüfen Sie das Passwort und sicherstellen Sie die Sicherheit, indem Sie die Hash -Werte vergleichen. 3) MD5 und SHA1 sind anfällig und fehlen Salzwerte und sind nicht für die Sicherheit der modernen Passwort geeignet.
PHP: Eine Einführung in die serverseitige SkriptspracheApr 16, 2025 am 12:18 AMPHP ist eine serverseitige Skriptsprache, die für dynamische Webentwicklung und serverseitige Anwendungen verwendet wird. 1.PHP ist eine interpretierte Sprache, die keine Zusammenstellung erfordert und für die schnelle Entwicklung geeignet ist. 2. PHP -Code ist in HTML eingebettet, wodurch es einfach ist, Webseiten zu entwickeln. 3. PHP verarbeitet die serverseitige Logik, generiert die HTML-Ausgabe und unterstützt Benutzerinteraktion und Datenverarbeitung. 4. PHP kann mit der Datenbank interagieren, die Einreichung von Prozessformularen und serverseitige Aufgaben ausführen.
PHP und das Web: Erforschen der langfristigen AuswirkungenApr 16, 2025 am 12:17 AMPHP hat das Netzwerk in den letzten Jahrzehnten geprägt und wird weiterhin eine wichtige Rolle bei der Webentwicklung spielen. 1) PHP stammt aus dem Jahr 1994 und ist aufgrund seiner Benutzerfreundlichkeit und der nahtlosen Integration in MySQL die erste Wahl für Entwickler. 2) Zu den Kernfunktionen gehört das Generieren dynamischer Inhalte und die Integration in die Datenbank, sodass die Website in Echtzeit aktualisiert und auf personalisierte Weise angezeigt wird. 3) Die breite Anwendung und das Ökosystem von PHP hat seine langfristigen Auswirkungen angetrieben, steht jedoch auch mit Versionsaktualisierungen und Sicherheitsherausforderungen gegenüber. 4) Leistungsverbesserungen in den letzten Jahren, wie die Veröffentlichung von PHP7, ermöglichen es ihm, mit modernen Sprachen zu konkurrieren. 5) In Zukunft muss PHP sich mit neuen Herausforderungen wie Containerisierung und Microservices befassen, aber seine Flexibilität und die aktive Community machen es anpassungsfähig.
Warum PHP verwenden? Vorteile und Vorteile erläutertApr 16, 2025 am 12:16 AMZu den Kernvorteilen von PHP gehören einfacher Lernen, starke Unterstützung für Webentwicklung, reiche Bibliotheken und Rahmenbedingungen, hohe Leistung und Skalierbarkeit, plattformübergreifende Kompatibilität und Kosteneffizienz. 1) leicht zu erlernen und zu bedienen, geeignet für Anfänger; 2) gute Integration in Webserver und unterstützt mehrere Datenbanken. 3) leistungsstarke Frameworks wie Laravel; 4) hohe Leistung kann durch Optimierung erzielt werden; 5) mehrere Betriebssysteme unterstützen; 6) Open Source, um die Entwicklungskosten zu senken.
Heiße KI -Werkzeuge
Undresser.AI Undress
KI-gestützte App zum Erstellen realistischer Aktfotos
AI Clothes Remover
Online-KI-Tool zum Entfernen von Kleidung aus Fotos.
Undress AI Tool
Ausziehbilder kostenlos
Clothoff.io
KI-Kleiderentferner
AI Hentai Generator
Erstellen Sie kostenlos Ai Hentai.
Heißer Artikel
R.E.P.O. Energiekristalle erklärten und was sie tun (gelber Kristall)
1 Monate vorBy尊渡假赌尊渡假赌尊渡假赌
R.E.P.O. Beste grafische Einstellungen
1 Monate vorBy尊渡假赌尊渡假赌尊渡假赌
Assassin's Creed Shadows: Seashell Riddle -Lösung
2 Wochen vorByDDD
R.E.P.O. So reparieren Sie Audio, wenn Sie niemanden hören können
1 Monate vorBy尊渡假赌尊渡假赌尊渡假赌
R.E.P.O. Chat -Befehle und wie man sie benutzt
1 Monate vorBy尊渡假赌尊渡假赌尊渡假赌
Heiße Werkzeuge
Notepad++7.3.1
Einfach zu bedienender und kostenloser Code-Editor
Herunterladen der Mac-Version des Atom-Editors
Der beliebteste Open-Source-Editor
SAP NetWeaver Server-Adapter für Eclipse
Integrieren Sie Eclipse mit dem SAP NetWeaver-Anwendungsserver.
SecLists
SecLists ist der ultimative Begleiter für Sicherheitstester. Dabei handelt es sich um eine Sammlung verschiedener Arten von Listen, die häufig bei Sicherheitsbewertungen verwendet werden, an einem Ort. SecLists trägt dazu bei, Sicherheitstests effizienter und produktiver zu gestalten, indem es bequem alle Listen bereitstellt, die ein Sicherheitstester benötigen könnte. Zu den Listentypen gehören Benutzernamen, Passwörter, URLs, Fuzzing-Payloads, Muster für vertrauliche Daten, Web-Shells und mehr. Der Tester kann dieses Repository einfach auf einen neuen Testcomputer übertragen und hat dann Zugriff auf alle Arten von Listen, die er benötigt.
VSCode Windows 64-Bit-Download
Ein kostenloser und leistungsstarker IDE-Editor von Microsoft
