C Packet Sniffer Code with Libpcap and Linux Sockets (BSD)

Libpcap is a packet capture library which can be used to sniff packets or network traffic over a network interface. Pcap Documentation gives a description of the methods and data structures available in the libpcap library.

To install libpcap on your linux distro you can either download the source from the website and compile it and install. Or if you are on a distro like ubuntu then it can be installed from synaptic package manager. In the list of packages in Synaptic Package Manager look for 2 packages named as libpcap0.8 and libpcap0.8-dev. Install both of them.

To start with the C program the simple steps would be :

1. Find all available devices – find_alldevs()

find_alldevs() is the function which can be used to get a list of all available network devices or interfaces present on the machine or which can be opened by pcap_open_live() for sniffing purpose.

The prototype is as :

int pcap_findalldevs(pcap_if_t **alldevsp, char *errbuf)

where alldevsp is a pointer to an array of of pcap_if_t structures and errbuf is a character pointer and will contain any error message that occured during the function call.

2. Select a device for sniffing data – pcap_open_live()

pcap_open_live() is the function to get a packet capture descriptor or a handle to a device which has been opened up for sniffing. The protoype is as :

pcap_t *pcap_open_live(const char *device, int snaplen,int promisc, int to_ms, char *errbuf)

device – is the name of the device as obtained from the call to pcap_findalldevs.
snaplen – is the maximum amount of data to be captured. 65536 should be sufficient length.
promisc – 0 or 1 to indicate whether to open the device in promiscuous mode.
to_ms – the timeout in milliseconds , 0 for no timeout
errbuf – buffer to contain any error message

It returns a device handler in the form of the structure pcap_t which can be used by pcap_loop() to capture data from.

3. Start sniffing the device – pcap_loop()
4. Process the sniffed packet – user defined callback method

Code :

/*
	Packet sniffer using libpcap library
*/
#include
#include
#include // for exit()
#include //for memset

#include
#include // for inet_ntoa()
#include
#include	//Provides declarations for icmp header
#include	//Provides declarations for udp header
#include	//Provides declarations for tcp header
#include	//Provides declarations for ip header

void process_packet(u_char *, const struct pcap_pkthdr *, const u_char *);
void process_ip_packet(const u_char * , int);
void print_ip_packet(const u_char * , int);
void print_tcp_packet(const u_char *  , int );
void print_udp_packet(const u_char * , int);
void print_icmp_packet(const u_char * , int );
void PrintData (const u_char * , int);

FILE *logfile;
struct sockaddr_in source,dest;
int tcp=0,udp=0,icmp=0,others=0,igmp=0,total=0,i,j;	

int main()
{
	pcap_if_t *alldevsp , *device;
	pcap_t *handle; //Handle of the device that shall be sniffed

	char errbuf[100] , *devname , devs[100][100];
	int count = 1 , n;
	
	//First get the list of available devices
	printf("Finding available devices ... ");
	if( pcap_findalldevs( &alldevsp , errbuf) )
	{
		printf("Error finding devices : %s" , errbuf);
		exit(1);
	}
	printf("Done");
	
	//Print the available devices
	printf("\nAvailable Devices are :\n");
	for(device = alldevsp ; device != NULL ; device = device->next)
	{
		printf("%d. %s - %s\n" , count , device->name , device->description);
		if(device->name != NULL)
		{
			strcpy(devs[count] , device->name);
		}
		count++;
	}
	
	//Ask user which device to sniff
	printf("Enter the number of the device you want to sniff : ");
	scanf("%d" , &n);
	devname = devs[n];
	
	//Open the device for sniffing
	printf("Opening device %s for sniffing ... " , devname);
	handle = pcap_open_live(devname , 65536 , 1 , 0 , errbuf);
	
	if (handle == NULL) 
	{
		fprintf(stderr, "Couldn't open device %s : %s\n" , devname , errbuf);
		exit(1);
	}
	printf("Done\n");
	
	logfile=fopen("log.txt","w");
	if(logfile==NULL) 
	{
		printf("Unable to create file.");
	}
	
	//Put the device in sniff loop
	pcap_loop(handle , -1 , process_packet , NULL);
	
	return 0;	
}

void process_packet(u_char *args, const struct pcap_pkthdr *header, const u_char *buffer)
{
	int size = header->len;
	
	//Get the IP Header part of this packet , excluding the ethernet header
	struct iphdr *iph = (struct iphdr*)(buffer + sizeof(struct ethhdr));
	++total;
	switch (iph->protocol) //Check the Protocol and do accordingly...
	{
		case 1:  //ICMP Protocol
			++icmp;
			print_icmp_packet( buffer , size);
			break;
		
		case 2:  //IGMP Protocol
			++igmp;
			break;
		
		case 6:  //TCP Protocol
			++tcp;
			print_tcp_packet(buffer , size);
			break;
		
		case 17: //UDP Protocol
			++udp;
			print_udp_packet(buffer , size);
			break;
		
		default: //Some Other Protocol like ARP etc.
			++others;
			break;
	}
	printf("TCP : %d   UDP : %d   ICMP : %d   IGMP : %d   Others : %d   Total : %d\r", tcp , udp , icmp , igmp , others , total);
}

void print_ethernet_header(const u_char *Buffer, int Size)
{
	struct ethhdr *eth = (struct ethhdr *)Buffer;
	
	fprintf(logfile , "\n");
	fprintf(logfile , "Ethernet Header\n");
	fprintf(logfile , "   |-Destination Address : %.2X-%.2X-%.2X-%.2X-%.2X-%.2X \n", eth->h_dest[0] , eth->h_dest[1] , eth->h_dest[2] , eth->h_dest[3] , eth->h_dest[4] , eth->h_dest[5] );
	fprintf(logfile , "   |-Source Address      : %.2X-%.2X-%.2X-%.2X-%.2X-%.2X \n", eth->h_source[0] , eth->h_source[1] , eth->h_source[2] , eth->h_source[3] , eth->h_source[4] , eth->h_source[5] );
	fprintf(logfile , "   |-Protocol            : %u \n",(unsigned short)eth->h_proto);
}

void print_ip_header(const u_char * Buffer, int Size)
{
	print_ethernet_header(Buffer , Size);
  
	unsigned short iphdrlen;
		
	struct iphdr *iph = (struct iphdr *)(Buffer  + sizeof(struct ethhdr) );
	iphdrlen =iph->ihl*4;
	
	memset(&source, 0, sizeof(source));
	source.sin_addr.s_addr = iph->saddr;
	
	memset(&dest, 0, sizeof(dest));
	dest.sin_addr.s_addr = iph->daddr;
	
	fprintf(logfile , "\n");
	fprintf(logfile , "IP Header\n");
	fprintf(logfile , "   |-IP Version        : %d\n",(unsigned int)iph->version);
	fprintf(logfile , "   |-IP Header Length  : %d DWORDS or %d Bytes\n",(unsigned int)iph->ihl,((unsigned int)(iph->ihl))*4);
	fprintf(logfile , "   |-Type Of Service   : %d\n",(unsigned int)iph->tos);
	fprintf(logfile , "   |-IP Total Length   : %d  Bytes(Size of Packet)\n",ntohs(iph->tot_len));
	fprintf(logfile , "   |-Identification    : %d\n",ntohs(iph->id));
	//fprintf(logfile , "   |-Reserved ZERO Field   : %d\n",(unsigned int)iphdr->ip_reserved_zero);
	//fprintf(logfile , "   |-Dont Fragment Field   : %d\n",(unsigned int)iphdr->ip_dont_fragment);
	//fprintf(logfile , "   |-More Fragment Field   : %d\n",(unsigned int)iphdr->ip_more_fragment);
	fprintf(logfile , "   |-TTL      : %d\n",(unsigned int)iph->ttl);
	fprintf(logfile , "   |-Protocol : %d\n",(unsigned int)iph->protocol);
	fprintf(logfile , "   |-Checksum : %d\n",ntohs(iph->check));
	fprintf(logfile , "   |-Source IP        : %s\n" , inet_ntoa(source.sin_addr) );
	fprintf(logfile , "   |-Destination IP   : %s\n" , inet_ntoa(dest.sin_addr) );
}

void print_tcp_packet(const u_char * Buffer, int Size)
{
	unsigned short iphdrlen;
	
	struct iphdr *iph = (struct iphdr *)( Buffer  + sizeof(struct ethhdr) );
	iphdrlen = iph->ihl*4;
	
	struct tcphdr *tcph=(struct tcphdr*)(Buffer + iphdrlen + sizeof(struct ethhdr));
			
	int header_size =  sizeof(struct ethhdr) + iphdrlen + tcph->doff*4;
	
	fprintf(logfile , "\n\n***********************TCP Packet*************************\n");	
		
	print_ip_header(Buffer,Size);
		
	fprintf(logfile , "\n");
	fprintf(logfile , "TCP Header\n");
	fprintf(logfile , "   |-Source Port      : %u\n",ntohs(tcph->source));
	fprintf(logfile , "   |-Destination Port : %u\n",ntohs(tcph->dest));
	fprintf(logfile , "   |-Sequence Number    : %u\n",ntohl(tcph->seq));
	fprintf(logfile , "   |-Acknowledge Number : %u\n",ntohl(tcph->ack_seq));
	fprintf(logfile , "   |-Header Length      : %d DWORDS or %d BYTES\n" ,(unsigned int)tcph->doff,(unsigned int)tcph->doff*4);
	//fprintf(logfile , "   |-CWR Flag : %d\n",(unsigned int)tcph->cwr);
	//fprintf(logfile , "   |-ECN Flag : %d\n",(unsigned int)tcph->ece);
	fprintf(logfile , "   |-Urgent Flag          : %d\n",(unsigned int)tcph->urg);
	fprintf(logfile , "   |-Acknowledgement Flag : %d\n",(unsigned int)tcph->ack);
	fprintf(logfile , "   |-Push Flag            : %d\n",(unsigned int)tcph->psh);
	fprintf(logfile , "   |-Reset Flag           : %d\n",(unsigned int)tcph->rst);
	fprintf(logfile , "   |-Synchronise Flag     : %d\n",(unsigned int)tcph->syn);
	fprintf(logfile , "   |-Finish Flag          : %d\n",(unsigned int)tcph->fin);
	fprintf(logfile , "   |-Window         : %d\n",ntohs(tcph->window));
	fprintf(logfile , "   |-Checksum       : %d\n",ntohs(tcph->check));
	fprintf(logfile , "   |-Urgent Pointer : %d\n",tcph->urg_ptr);
	fprintf(logfile , "\n");
	fprintf(logfile , "                        DATA Dump                         ");
	fprintf(logfile , "\n");
		
	fprintf(logfile , "IP Header\n");
	PrintData(Buffer,iphdrlen);
		
	fprintf(logfile , "TCP Header\n");
	PrintData(Buffer+iphdrlen,tcph->doff*4);
		
	fprintf(logfile , "Data Payload\n");	
	PrintData(Buffer + header_size , Size - header_size );
						
	fprintf(logfile , "\n###########################################################");
}

void print_udp_packet(const u_char *Buffer , int Size)
{
	
	unsigned short iphdrlen;
	
	struct iphdr *iph = (struct iphdr *)(Buffer +  sizeof(struct ethhdr));
	iphdrlen = iph->ihl*4;
	
	struct udphdr *udph = (struct udphdr*)(Buffer + iphdrlen  + sizeof(struct ethhdr));
	
	int header_size =  sizeof(struct ethhdr) + iphdrlen + sizeof udph;
	
	fprintf(logfile , "\n\n***********************UDP Packet*************************\n");
	
	print_ip_header(Buffer,Size);			
	
	fprintf(logfile , "\nUDP Header\n");
	fprintf(logfile , "   |-Source Port      : %d\n" , ntohs(udph->source));
	fprintf(logfile , "   |-Destination Port : %d\n" , ntohs(udph->dest));
	fprintf(logfile , "   |-UDP Length       : %d\n" , ntohs(udph->len));
	fprintf(logfile , "   |-UDP Checksum     : %d\n" , ntohs(udph->check));
	
	fprintf(logfile , "\n");
	fprintf(logfile , "IP Header\n");
	PrintData(Buffer , iphdrlen);
		
	fprintf(logfile , "UDP Header\n");
	PrintData(Buffer+iphdrlen , sizeof udph);
		
	fprintf(logfile , "Data Payload\n");	
	
	//Move the pointer ahead and reduce the size of string
	PrintData(Buffer + header_size , Size - header_size);
	
	fprintf(logfile , "\n###########################################################");
}

void print_icmp_packet(const u_char * Buffer , int Size)
{
	unsigned short iphdrlen;
	
	struct iphdr *iph = (struct iphdr *)(Buffer  + sizeof(struct ethhdr));
	iphdrlen = iph->ihl * 4;
	
	struct icmphdr *icmph = (struct icmphdr *)(Buffer + iphdrlen  + sizeof(struct ethhdr));
	
	int header_size =  sizeof(struct ethhdr) + iphdrlen + sizeof icmph;
	
	fprintf(logfile , "\n\n***********************ICMP Packet*************************\n");	
	
	print_ip_header(Buffer , Size);
			
	fprintf(logfile , "\n");
		
	fprintf(logfile , "ICMP Header\n");
	fprintf(logfile , "   |-Type : %d",(unsigned int)(icmph->type));
			
	if((unsigned int)(icmph->type) == 11)
	{
		fprintf(logfile , "  (TTL Expired)\n");
	}
	else if((unsigned int)(icmph->type) == ICMP_ECHOREPLY)
	{
		fprintf(logfile , "  (ICMP Echo Reply)\n");
	}
	
	fprintf(logfile , "   |-Code : %d\n",(unsigned int)(icmph->code));
	fprintf(logfile , "   |-Checksum : %d\n",ntohs(icmph->checksum));
	//fprintf(logfile , "   |-ID       : %d\n",ntohs(icmph->id));
	//fprintf(logfile , "   |-Sequence : %d\n",ntohs(icmph->sequence));
	fprintf(logfile , "\n");

	fprintf(logfile , "IP Header\n");
	PrintData(Buffer,iphdrlen);
		
	fprintf(logfile , "UDP Header\n");
	PrintData(Buffer + iphdrlen , sizeof icmph);
		
	fprintf(logfile , "Data Payload\n");	
	
	//Move the pointer ahead and reduce the size of string
	PrintData(Buffer + header_size , (Size - header_size) );
	
	fprintf(logfile , "\n###########################################################");
}

void PrintData (const u_char * data , int Size)
{
	int i , j;
	for(i=0 ; i < Size ; i++)
	{
		if( i!=0 && i%16==0)   //if one line of hex printing is complete...
		{
			fprintf(logfile , "         ");
			for(j=i-16 ; j=32 && data[j]<=128)
					fprintf(logfile , "%c",(unsigned char)data[j]); //if its a number or alphabet
				
				else fprintf(logfile , "."); //otherwise print a dot
			}
			fprintf(logfile , "\n");
		} 
		
		if(i%16==0) fprintf(logfile , "   ");
			fprintf(logfile , " %02X",(unsigned int)data[i]);
				
		if( i==Size-1)  //print the last spaces
		{
			for(j=0;j<15-i%16;j++) 
			{
			  fprintf(logfile , "   "); //extra spaces
			}
			
			fprintf(logfile , "         ");
			
			for(j=i-i%16 ; j<=i ; j++)
			{
				if(data[j]>=32 && data[j]<=128) 
				{
				  fprintf(logfile , "%c",(unsigned char)data[j]);
				}
				else 
				{
				  fprintf(logfile , ".");
				}
			}
			
			fprintf(logfile ,  "\n" );
		}
	}
}

  

Compile :

1 $ gcc lsniffer.c -lpcap -o lsniffer

The output on the terminal would be like this :

1 sudo ./lsniffer
2 Finding available devices ... Done
3 Available Devices are :
4 1. eth0 - (null)
5 2. usbmon1 - USB bus number 1
6 3. usbmon2 - USB bus number 2
7 4. usbmon3 - USB bus number 3
8 5. usbmon4 - USB bus number 4
9 6. usbmon5 - USB bus number 5
10 7. usbmon6 - USB bus number 6
11 8. usbmon7 - USB bus number 7
12 9. any - Pseudo-device that captures on all interfaces
13 10. lo - (null)
14 Enter the number of the device you want to sniff : 1
15 Opening device eth0 for sniffing ... Done
16 TCP : 57   UDP : 17   ICMP : 16   IGMP : 1   Others : 0   Total : 90

The logfile would look like this :

1 ***********************UDP Packet*************************
2  
3 Ethernet Header
4    |-Destination Address : 00-1C-C0-F8-79-EE
5    |-Source Address      : 00-1E-58-B8-D4-69
6    |-Protocol            : 8
7  
8 IP Header
9    |-IP Version        : 4
10    |-IP Header Length  : 5 DWORDS or 20 Bytes
11    |-Type Of Service   : 0
12    |-IP Total Length   : 257  Bytes(Size of Packet)
13    |-Identification    : 13284
14    |-TTL      : 63
15    |-Protocol : 17
16    |-Checksum : 55095
17    |-Source IP        : 208.67.222.222
18    |-Destination IP   : 192.168.0.6
19  
20 UDP Header
21    |-Source Port      : 53
22    |-Destination Port : 33247
23    |-UDP Length       : 237
24    |-UDP Checksum     : 30099
25  
26 IP Header
27     00 1C C0 F8 79 EE 00 1E 58 B8 D4 69 08 00 45 00         ....y...X..i..E.
28     01 01 33 E4                                             ..3.
29 UDP Header
30     00 00 3F 11 D7 37 D0 43                                 ..?..7.C
31 Data Payload
32     AF BD 81 80 00 01 00 01 00 04 00 04 02 31 36 03         ...?.........16.
33     32 33 35 03 31 32 35 02 37 34 07 69 6E 2D 61 64         235.125.74.in-ad
34     64 72 04 61 72 70 61 00 00 0C 00 01 C0 0C 00 0C         dr.arpa.........
35     00 01 00 01 4F E5 00 1B 0F 73 69 6E 30 31 73 30         ....O....sin01s0
36     34 2D 69 6E 2D 66 31 36 05 31 65 31 30 30 03 6E         4-in-f16.1e100.n
37     65 74 00 C0 13 00 02 00 01 00 01 42 28 00 10 03         et.........B(...
38     4E 53 31 06 47 4F 4F 47 4C 45 03 43 4F 4D 00 C0         NS1.GOOGLE.COM..
39     13 00 02 00 01 00 01 42 28 00 06 03 4E 53 33 C0         .......B(...NS3.
40     63 C0 13 00 02 00 01 00 01 42 28 00 06 03 4E 53         c........B(...NS
41     34 C0 63 C0 13 00 02 00 01 00 01 42 28 00 06 03         4.c........B(...
42     4E 53 32 C0 63 C0 5F 00 01 00 01 00 02 7E 59 00         NS2.c._......~Y.
43     04 D8 EF 20 0A C0 9F 00 01 00 01 00 02 7E 59 00         ... .........~Y.
44     04 D8 EF 22 0A C0 7B 00 01 00 01 00 03 81 F3 00         ..."..{.........
45     04 D8 EF 24 0A C0 8D 00 01 00 01 00 02 A1 AA 00         ...$............
46     04 D8 EF 26 0A                                          ...&.
47  
48 ###########################################################
49  
50 ***********************TCP Packet*************************
51  
52 Ethernet Header
53    |-Destination Address : 00-1E-58-B8-D4-69
54    |-Source Address      : 00-1C-C0-F8-79-EE
55    |-Protocol            : 8
56  
57 IP Header
58    |-IP Version        : 4
59    |-IP Header Length  : 5 DWORDS or 20 Bytes
60    |-Type Of Service   : 0
61    |-IP Total Length   : 57  Bytes(Size of Packet)
62    |-Identification    : 45723
63    |-TTL      : 64
64    |-Protocol : 6
65    |-Checksum : 12762
66    |-Source IP        : 192.168.0.6
67    |-Destination IP   : 130.239.18.172
68  
69 TCP Header
70    |-Source Port      : 57319
71    |-Destination Port : 6667
72    |-Sequence Number    : 2867385066
73    |-Acknowledge Number : 443542543
74    |-Header Length      : 5 DWORDS or 20 BYTES
75    |-Urgent Flag          : 0
76    |-Acknowledgement Flag : 1
77    |-Push Flag            : 1
78    |-Reset Flag           : 0
79    |-Synchronise Flag     : 0
80    |-Finish Flag          : 0
81    |-Window         : 62780
82    |-Checksum       : 22133
83    |-Urgent Pointer : 0
84  
85                         DATA Dump                        
86 IP Header
87     00 1E 58 B8 D4 69 00 1C C0 F8 79 EE 08 00 45 00         ..X..i....y...E.
88     00 39 B2 9B                                             .9..
89 TCP Header
90     40 00 40 06 31 DA C0 A8 00 06 82 EF 12 AC DF E7         @[email protected]...........
91     1A 0B AA E8                                             ....
92 Data Payload
93     50 49 4E 47 20 31 33 32 33 32 37 30 35 36 36 0D         PING 1323270566.
94     0A                                                      .
95  
96 ###########################################################

The program requires superuser or root privileges to be able to sniff the packets.

Wireshark(previously ethereal) and tcpdump are examples of applications which use the libpcap library on linux to capture packet data.

你可能感兴趣的:(C Packet Sniffer Code with Libpcap and Linux Sockets (BSD))