我正在尝试使用C中的原始套接字创建TCP连接(在Debian系统上),但我很难让它工作。它会发送一个数据包,但我没有从服务器得到任何响应。我已经测试并将数据包与从nmap发送的数据包进行了比较,但我看不出任何重大差异。
这是服务器端收到的TCP数据包,服务器端从不发送SYN ACK数据包(我在服务器端使用Wireshark进行监控)
No. Time Source Destination Protocol Length Info
75 1.893700000 192.168.1.129 192.168.1.114 TCP 74 56540→445 [SYN] Seq=0 Win=1024 Len=0 MSS=1460 SACK_PERM=1 WS=128 TSval=863195 TSecr=0
Frame 75: 74 bytes on wire (592 bits), 74 bytes captured (592 bits) on interface 0
Ethernet II, Src: Vmware_77:f0:a0 (00:0c:29:77:f0:a0), Dst: IntelCor_07:f9:e5 (e8:b1:fc:07:f9:e5)
Internet Protocol Version 4, Src: 192.168.1.129 (192.168.1.129), Dst: 192.168.1.114 (192.168.1.114)
Version: 4
Header Length: 20 bytes
Differentiated Services Field: 0x00 (DSCP 0x00: Default; ECN: 0x00: Not-ECT (Not ECN-Capable Transport))
Total Length: 60
Identification: 0xb88d (47245)
Flags: 0x00
Fragment offset: 0
Time to live: 255
Protocol: TCP (6)
Header checksum: 0x7eea [validation disabled]
Source: 192.168.1.129 (192.168.1.129)
Destination: 192.168.1.114 (192.168.1.114)
[Source GeoIP: Unknown]
[Destination GeoIP: Unknown]
Transmission Control Protocol, Src Port: 56540 (56540), Dst Port: 445 (445), Seq: 0, Len: 0
Source Port: 56540 (56540)
Destination Port: 445 (445)
[Stream index: 3]
[TCP Segment Len: 0]
Sequence number: 0 (relative sequence number)
Acknowledgment number: 0
Header Length: 40 bytes
.... 0000 0000 0010 = Flags: 0x002 (SYN)
Window size value: 1024
[Calculated window size: 1024]
Checksum: 0x7ff8 [validation disabled]
Urgent pointer: 0
Options: (20 bytes), Maximum segment size, SACK permitted, Window scale, No-Operation (NOP), Timestamps
Maximum segment size: 1460 bytes
Kind: Maximum Segment Size (2)
Length: 4
MSS Value: 1460
TCP SACK Permitted Option: True
Kind: SACK Permitted (4)
Length: 2
Window scale: 7 (multiply by 128)
Kind: Window Scale (3)
Length: 3
Shift count: 7
[Multiplier: 128]
No-Operation (NOP)
Type: 1
Timestamps: TSval 863195, TSecr 0
Kind: Time Stamp Option (8)
Length: 10
Timestamp value: 863195
Timestamp echo reply: 0
0000 e8 b1 fc 07 f9 e5 00 0c 29 77 f0 a0 08 00 45 00 ........)w....E.
0010 00 3c b8 8d 00 00 ff 06 7e ea c0 a8 01 81 c0 a8 .<......~.......
0020 01 72 dc dc 01 bd db 0f 13 02 00 00 00 00 a0 02 .r..............
0030 04 00 7f f8 00 00 02 04 05 b4 04 02 03 03 07 01 ................
0040 08 0a 00 0d 2b db 00 00 00 00 ....+.....
这是我的代码,我知道它很乱,我只是想学习如何使用原始套接字
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netdb.h>
#include <arpa/inet.h>
#include <netinet/in.h>
#include <unistd.h>
#include <time.h>
struct ipheader {
unsigned char iph_ihl:4, /* Little-endian */
iph_ver:4;
unsigned char iph_tos;
unsigned short int iph_len;
unsigned short int iph_ident;
unsigned short int iph_offset:13, /* Little-endian*/
iph_flags:3;
unsigned char iph_ttl;
unsigned char iph_protocol;
unsigned short int iph_chksum;
unsigned int iph_sourceip;
unsigned int iph_destip;
};
struct tcpheader {
u_int16_t tcph_srcport;
u_int16_t tcph_destport;
u_int32_t tcph_seqnum;
u_int32_t tcph_acknum;
u_int16_t
tcph_ns:1,
tcph_reserved:3,
tcph_offset:4,
tcph_fin:1,
tcph_syn:1,
tcph_rst:1,
tcph_psh:1,
tcph_ack:1,
tcph_urg:1,
tcph_ece:1,
tcph_cwr:1;
u_int16_t tcph_win;
u_int16_t tcph_chksum;
u_int16_t tcph_urgptr;
};
struct tcpheaderOptions
{
u_int16_t
tcph_mssOpt:8,
tcph_mssLen:8;
u_int16_t
tcph_mss;
u_int16_t
tcph_sack:8,
tcph_sackLen:8;
u_int16_t
tcph_winOpt:8,
tcph_winLen:8;
u_int32_t
tcph_win:8,
tcph_winNOP:8,
tcph_timeOpt:8,
tcph_timeLen:8;
u_int32_t tcph_time;
u_int32_t tcph_timeEcho;
};
unsigned short /* this function generates header checksums */
csum (unsigned short *buf, int nwords)
{
unsigned long sum;
for (sum = 0; nwords > 0; nwords--)
sum += *buf++;
sum = (sum >> 16) + (sum & 0xffff);
sum += (sum >> 16);
return ~sum;
}
int main(void)
{
char datagram[4096];
char data[] = "Hello my name is Keith, this is my first packet";
memset(datagram,0,4096);
struct ipheader *IPInfo = (struct ipheader *) datagram;
struct tcpheader *TCPHeader = (struct tcpheader *) (datagram + sizeof(struct ipheader));
struct tcpheaderOptions *TCPOptions = (struct tcpheaderOptions *) (datagram + sizeof(struct tcpheader) + sizeof(struct ipheader));
struct sockaddr_in sin; //Te destination
sin.sin_family = AF_INET;
sin.sin_port = htons(4);
sin.sin_addr.s_addr = inet_addr("192.168.1.114");
IPInfo->iph_ver = 4; //What IP version are we using? v4
IPInfo->iph_ihl = 5; //The IP header size in bytes
IPInfo->iph_tos = 0; //The IP header type of service 0x00 is normal
IPInfo->iph_len = sizeof(struct ipheader) + sizeof(struct tcpheader) + sizeof(struct tcpheaderOptions); //The IP length of the IP datagram
IPInfo->iph_ident = htonl(54321); //The IP header ID (used when fragmented)
IPInfo->iph_offset = 0; //IP fragment offset
IPInfo->iph_ttl = 255; //The IP TTL
IPInfo->iph_protocol = 6; //The transport layer protocol (6 for TCP, 1 for ICMP, 17 for UDP)
IPInfo->iph_chksum = 0; //Checksum
IPInfo->iph_sourceip = inet_addr("192.168.1.129"); //source
// IPInfo->iph_destip = sin.sin_addr.s_addr;
IPInfo->iph_destip = inet_addr("192.168.1.114");
char source[20];
char dest[20];
inet_ntop(AF_INET, &(IPInfo->iph_sourceip), source, 20);
inet_ntop(AF_INET, &(IPInfo->iph_destip), dest, 20);
printf("Source: %s\n", source);
printf("Dest: %s\n", dest);
//IPInfo->ip_dst.s_addr = inet_addr("192.168.1.114");
TCPHeader->tcph_srcport = htons(56540); //The source port
TCPHeader->tcph_destport = htons(445); //The destination port
srand(time(NULL));
TCPHeader->tcph_seqnum = rand(); //the sequence number
TCPHeader->tcph_acknum = 0; //ACK packet
TCPHeader->tcph_reserved = 0; //Not used
TCPHeader->tcph_offset = 10; //
TCPHeader->tcph_cwr = 0;
TCPHeader->tcph_ns = 0;
TCPHeader->tcph_syn = 1;
TCPHeader->tcph_rst = 0;
TCPHeader->tcph_psh = 0;
TCPHeader->tcph_ack = 0;
TCPHeader->tcph_urg = 0;
TCPHeader->tcph_ece = 0;
TCPHeader->tcph_cwr = 0;
TCPHeader->tcph_ns = 0;
TCPHeader->tcph_win = htons(1024);
TCPHeader->tcph_chksum = 0;
TCPHeader->tcph_urgptr = 0;
TCPOptions->tcph_mssOpt = 2;
TCPOptions->tcph_mssLen = 4;
TCPOptions->tcph_winOpt = 3;
TCPOptions->tcph_winLen = 3;
TCPOptions->tcph_sack = 4;
TCPOptions->tcph_sackLen = 2;
TCPOptions->tcph_win = 7;
TCPOptions->tcph_winNOP = 1;
TCPOptions->tcph_mss = htons(1460);
TCPOptions->tcph_timeOpt = 8;
TCPOptions->tcph_timeLen = 10;
TCPOptions->tcph_time = 0xdb2b0d00;
//Adding the data
//strcpy(datagram + sizeof(struct ipheader) + sizeof(struct tcpheader),data);
TCPHeader->tcph_chksum = csum((unsigned short *) datagram,TCPHeader->tcph_offset >> 1);
IPInfo->iph_chksum = csum((unsigned short *) datagram, IPInfo->iph_len >> 1);
int sockfd = socket(PF_INET, SOCK_RAW, IPPROTO_TCP);
if(sockfd == -1) {
perror("sockfd");
exit(1);
}
//Setting IP_HDRINCL so that the system doesnt add headers to my packets
{
int one = 1;
const int *val = &one;
if(setsockopt(sockfd,IPPROTO_IP, IP_HDRINCL, val, sizeof(one)) < 0) {
perror("setsockopt");
return -1;
}
else
printf("Using your own header\n");
}
//Creating a raw socket to send info on
if(sendto(sockfd, datagram, IPInfo->iph_len, 0, (struct sockaddr *) &sin, sizeof (sin)) < 0)
perror("send");
else
printf("sending\n");
printf("Sent sequence number: %d\n",TCPHeader->tcph_seqnum);
//Now we will wait to receive a message back
memset(datagram,0,4096);
int results = recv(sockfd,datagram,sizeof(datagram),0);
printf("Results: %d\n",results);
IPInfo = (struct ipheader *) datagram;
TCPHeader = (struct tcpheader * ) (datagram + (IPInfo->iph_ihl * 4));
printf("Packet: IPInfo->iph_ihl %d\n",IPInfo->iph_ihl);
printf("ACK num = %d\n",TCPHeader->tcph_ack);
char source1[20];
char dest1[20];
inet_ntop(AF_INET, &(IPInfo->iph_sourceip), source, 20);
inet_ntop(AF_INET, &(IPInfo->iph_destip), dest, 20);
printf("Source: %s\n",source1);
printf("Dest: %s\n",dest1);
printf("Size of ipheader %d\n",sizeof(struct ipheader));
printf("size of tcpheader %d\n",sizeof(struct tcpheader));
return 0;
}
答案 0 :(得分:0)
在wireshark中启用校验和验证,因此您至少可以确定您没有计算错误的校验和(在IP或TCP标头中) - nos
谢谢,我的TCP校验和无效 - Keith