【VS开发】【Linux开发】【DSP开发】如何截获以太网帧并解析

/*
 capture_packet.c - 截获所有以太网帧数据并进行具体分析 */

/*
 常用函数的头文件   */

#include
 <stdio.h>

#include
 <stdlib.h>

#include
 <string.h> 

#include
 <strings.h>

#include
 <unistd.h> 

#include
 <signal.h>

/*
 与网络相关的头文件 */

#include
 <netinet/ip_icmp.h>

#include
 <net/if_arp.h>

#include
 <sys/socket.h> 

#include
 <netinet/in.h> 

#include
 <arpa/inet.h>  

#include
 <netinet/ip.h> 

#include
 <netdb.h> 

#include
 <netinet/tcp.h> 

#include
 <netinet/udp.h>

#include
 <signal.h> 

#include
 <net/if.h> 

#include
 <sys/ioctl.h> 

#include
 <sys/stat.h> 

#include
 <fcntl.h> 

#include
 <linux/if_ether.h>

#include
 <net/ethernet.h>

#include
 <linux/igmp.h>

#include
 <netinet/tcp.h>

/*
 全局变量结构的结构体原型 - 包含要记录的任何全局信息 */

struct global_info
 {

    unsigned int bytes;     /*
 网卡接收的总字节数     */

    unsigned int packet_num;        /*
 网卡接受的帧的总数量   */

    unsigned int packet_arp;        /*
 接收到的arp包的数量    */

    unsigned int packet_rarp;       /*
 接收到的rarp包的数量   */

    unsigned int packet_ip;     /*
 接收到的ip包的数量     */

    unsigned int packet_icmp;   /*
 接收到的icmp包的数量   */

    unsigned int packet_igmp;   /*
 接收到的igmp包的数量   */

    unsigned int packet_tcp;    /*
 接收到的tcp包的数量    */

    unsigned int packet_udp;    /*
 接收到的udp包的数量    */

    int print_flag_frame;       /*
 是否打印帧头信息标志, 1表示打印, 0表示不打印 */

    int print_flag_arp;     /*
 是否打印arp头信息标志  */

    int print_flag_ip;      /*
 是否打印ip头信息标志   */

    int print_flag_rarp;        /*
 是否打印rarp头信息标志 */

    int print_flag_tcp;     /*
 是否打印tcp头信息标志  */

    int print_flag_udp;     /*
 是否打印udp头信息标志  */

    int print_flag_icmp;        /*
 是否打印icmp头信息标志 */

    int print_flag_igmp;        /*
 是否打印igmp头信息标志 */

};

/*
 定义一个全局变量，用于存储全局信息 */

struct global_info
 global;

struct ip_pair
 {

    unsigned int source_ip;

    unsigned int dest_ip;

    unsigned int count;

};

/*
 定义一个用于存储ip对的结构体数组 */

struct ip_pair
 ip_pair[10000];

/*
 一个用于初始化全局信息的函数 */

void init_global( struct global_info 
 * var );

/*
 一个用于打印全局信息的函数   */

void print_global( struct global_info
 var );

/*
 打印一个错误,并退出       */

void error_and_exit( char *
 msg, int exit_code
 );

/*
 设置网卡成混杂模式            */

int set_card_promisc( char *
 interface_name, int sock
 );

/*
 把mac地址转换一个字符串      */

void mac_to_str( char *
 buf, char *
 mac_buf );

/*
 用于打印帮助信息         */

void help( void );

/*
 截获网卡帧数据,并进行数据分用*/

void do_frame( int sockfd
 ); 

/*
 处理ip层数据              */

void do_ip( char *
 data );

/*
 打印ip头信息          */

void print_ip( struct iphdr
 * );

/*
 处理arp层数据        */

void do_arp( char *
 data );

/*
 打印arp头信息            */

void print_arp( struct arphdr
 * );

/*
 处理rarp数据            */

void do_rarp( char *
 data );

/*
 处理tcp层数据            */

void do_tcp( char *
 data );

/*
 打印tcp层头信息           */

void print_tcp( struct tcphdr
 * );

/*
 处理udp层数据            */

void do_udp( char *
 data );

/*
 打印udp层头信息           */

void print_udp( struct udphdr
 * );

/*
 处理icmp层数据           */

void do_icmp( char *
 data );

/*
 打印icmp头信息           */

void print_icmp( struct icmphdr
 * );

/*
 处理igmp层数据           */

void do_igmp( char *
 data );

/*
 打印igmp头信息           */

void print_igmp( struct igmphdr
 * );

/*
 初始化一个全局结构体         */

void init_global( struct global_info 
 * var )

{

    var->bytes
 = 0;

    var->packet_num
 = 0;

    var->packet_arp
 = 0;

    var->packet_rarp
 = 0;

    var->packet_ip
 = 0;

    var->packet_icmp
 = 0;

    var->packet_igmp
 = 0;

    var->packet_tcp
 = 0;

    var->packet_udp
 = 0;

    var->print_flag_frame
 = 0;

    var->print_flag_arp
 = 0;

    var->print_flag_ip
 = 0;

    var->print_flag_rarp
 = 0;

    var->print_flag_tcp
 = 0;

    var->print_flag_udp
 = 0;

    var->print_flag_icmp
 = 0;

    var->print_flag_igmp
 = 0;

}

/*
 一个用于打印全局信息的函数  */

void print_global( struct global_info
 var )

{

    printf("

**********
 全局信息 *****************

");

    printf("总共接收字节数:
 %d kbytes.
",
 var.bytes / 1024 );

    printf("总共接受包数量:
 %d

",
 var.packet_num );

    if(
 var.packet_arp ) printf("接收
 arp 包数量: %d
",
 var.packet_arp );

    if(
 var.packet_rarp) printf("接收
 rarp 包数量: %d
",
 var.packet_rarp );

    if(
 var.packet_ip )  printf("接收
 ip 包数量: %d
",
 var.packet_ip );

    if(
 var.packet_icmp) printf("接收
 icmp 包数量: %d
",
 var.packet_icmp );

    if(
 var.packet_igmp) printf("接收
 igmp 包数量: %d
",
 var.packet_igmp );

    if(
 var.packet_tcp ) printf("接收
 tcp 包数量: %d
",
 var.packet_tcp );

    if(
 var.packet_udp ) printf("接收
 udp 包数量: %d
",
 var.packet_udp );

    printf("
");

}

/*
 用于处理当下按ctrl-c时的处理函数 */

void sig_int( int sig
 )

{

    print_global(
 global );

    int i;

    /*

    for(
 i=0; i<global.packet_ip; i++ ){

        printf("%15s
 ==>> ", inet_ntoa( *(struct in_addr *)( &ip_pair[i].source_ip ) ) );

        printf("%15s
 
", inet_ntoa( *(struct in_addr *)( &ip_pair[i].dest_ip ) ));

    }

    */

    exit(
 0 );

}

/*
 打印错误信息，并退出            */

void error_and_exit( char *
 msg, int exit_code
 ) 

{ 

    herror(
 msg ); 

    exit(
 exit_code ); 

} 

/*
 设置网卡模式成混帐模式,这样的话可以截获以太网帧数据 */

int set_card_promisc( char *
 interface_name, int sock
 ) 

{ 

    /*
 用于套接口ioctl的接口请求结构体   */

    struct ifreq
 ifr;

    /*
 复制网卡名称进入请求结构体的名称元素 */

    strncpy(ifr.ifr_name,
 interface_name ,strlen(
 interface_name )+1); 

    /*
 通过ioctl获得相应信息            */

    if((ioctl(sock,
 SIOCGIFFLAGS, &ifr) == -1)) {          

        error_and_exit("ioctl",
 2); 

    } 

    /*
 设置网卡模式标志为混杂模式           */

        ifr.ifr_flags
 |= IFF_PROMISC;                  

    /*
 通过ioctl把参数传递给网卡         */ 

    if(ioctl(sock,
 SIOCSIFFLAGS, &ifr) == -1 )           

        error_and_exit("ioctl",
 3); 

} 

/*
 把mac地址转换成字符串 */

void mac_to_str( char *
 buf, char *
 mac_buf )

{

    sprintf(
 mac_buf, "%02x:%02x:%02x:%02x:%02x:%02x",(unsigned char)
 *buf, (unsigned char)(*(buf+1)),

                    (unsigned char)(*(buf+2)),
 (unsigned char)(*(buf+3)),

                    (unsigned char)(*(buf+4)),
 (unsigned char)(*(buf+5)));

    mac_buf[17]
 = 0;

}

void help( void )

{

    printf("Usage:
 capture [-h] [协议名称 ...].
");

    printf("默认情况:
 打印所有包信息.
");

}

void print_udp( struct udphdr
 * pudp )

{

    printf("====================
 udp 头信息 ======================
");

    printf("16位源端口号 
 : %d
",
 ntohs( pudp->source ) );

    printf("16位目的端口号:  
 %d
",
 ntohs( pudp->dest ) );

    printf("16位udp长度:
 %d
",
 ntohs( pudp->len ) );

    printf("16位udp校验和:
 %d
",
 ntohs( pudp->check ) );

    if(
 ntohs( pudp->len ) != sizeof(struct udphdr
 ) && ntohs( pudp->len ) < 20 ){

        char *
 data = ( char *
 )pudp + sizeof( struct udphdr
 );

        printf("UDP数据:
 %s
",
 data );

    }

}

void do_udp( char *
 data )

{

    global.packet_udp
 ++;

    struct udphdr
 * pudp = ( struct udphdr
 * )data;

    if(
 global.print_flag_udp )

        print_udp(
 pudp ); 

}

void print_tcp( struct tcphdr
 * ptcp )

{

    printf("====================
 tcp 头信息 =====================
");

    printf("源端口号 
 : %d
",
 ntohs( ptcp->source ) );

    printf("目的端口号:
 %d
",
 ntohs( ptcp->dest ) );

    printf("32位序列号 
 : %u
",
 ntohl( ptcp->seq ) );

    printf("32位确认序号:
 %u
",
 ntohl( ptcp->ack_seq ) );

    printf("首部长度:
 %d
",
 ptcp->doff * 4 );

    printf("6个标志位:
 
");

    printf("   
 紧急指针 urg : %d
",
 ptcp->urg );

    printf("   
 确认序号位 ack : %d
",
 ptcp->ack );

    printf("   
 接受方尽快将报文交给应用层 psh : %d
",
 ptcp->psh );

    printf("   
 重建连接 rst : %d
",
 ptcp->rst );

    printf("   
 用来发起连接的同步序号 syn : %d
",
 ptcp->syn );

    printf("   
 发送端完成任务 fin : %d
",
 ptcp->fin );

    printf("16位窗口大小:
 %d
",
 ntohs( ptcp->window ) );

    printf("16位校验和:
 %d
",
 ntohs( ptcp->check ) );

    printf("16位紧急指针:
 %d
",
 ntohs( ptcp->urg_ptr ) );

    if(
 ptcp->doff * 4 == 20 ){

        printf("选项数据:
 没有
");

    } else {

        printf("选项数据:
 %d 字节
",
 ptcp->doff * 4 - 20 );

    }

    char *
 data = ( char *
 )ptcp;

    data
 += ptcp->doff * 4;

    printf("数据长度:
 %d 字节
", strlen(data)
 );

    if( strlen(data)
 < 10 )printf("数据:
 %s
",
 data );

}

void do_tcp( char *
 data )

{

    global.packet_tcp
 ++;

    struct tcphdr
 * ptcp;

    ptcp
 = ( struct tcphdr
 * )data;

    if(
 global.print_flag_tcp )

        print_tcp(
 ptcp );

}

void print_igmp( struct igmphdr
 * pigmp )

{

    printf("==================== 
 igmp 包信息 ==========================
");

    printf("igmp
 版本: %d
",
 pigmp->type & 15 );

    printf("igmp
 类型: %d
",
 pigmp->type >> 4 );

    printf("igmp
 码: %d
",
 pigmp->code );

    printf("igmp
 校验和: %d
",
 ntohs( pigmp->csum ) );

    printf("igmp
 组地址: %d
",
 ntohl( pigmp->group ) );

}

void do_igmp( char *
 data )

{

    global.packet_igmp
 ++;

    struct igmphdr
 * pigmp = ( struct igmphdr
 * ) data;

    if(
 global.print_flag_igmp )

        print_igmp(
 pigmp );

}

void print_icmp( struct icmphdr
 * picmp )

{

    printf("====================
 icmp 包信息 ===========================
");

    printf("消息类型:
 %d ",
 picmp->type );

        switch(
 picmp->type ){

            case ICMP_ECHOREPLY:

                printf("Ping的回显应答
");

                break;

            case ICMP_DEST_UNREACH:

                    printf("目的不可达
");

                break;

            case ICMP_SOURCE_QUENCH:

                printf("源端被关闭
");

                break;

            case ICMP_REDIRECT:

                printf("重定相
"); 

                break;

            case ICMP_ECHO:

                printf("ping的回显请求
");   

                break;

            case ICMP_TIME_EXCEEDED:

                printf("超时
");

                break;

            case ICMP_PARAMETERPROB:

                printf("参数问题
");

                break;

            case ICMP_TIMESTAMP:

                printf("时间戳请求
");  

                break;

            case ICMP_TIMESTAMPREPLY:

                printf("时间戳应答
");  

                break;

            case ICMP_INFO_REQUEST:

                printf("信息请求
"); 

                break;

            case ICMP_INFO_REPLY:

                printf("信息应答
");

                break;

            case ICMP_ADDRESS:

                printf("地址掩码请求
");

                break;

            case ICMP_ADDRESSREPLY:

                printf("地址掩码应答
");

                break;

            default:

                printf("未知消息类型
");

                break;

        }

    printf("消息类型的子选项:
 %d ",
 picmp->code );

        switch(
 picmp->type ){

            case ICMP_ECHOREPLY:

                printf("Ping的回显应答
");

                break;

            case ICMP_DEST_UNREACH:

                switch(
 picmp->type ){

                    case ICMP_NET_UNREACH:

                        printf("网络不可到达
");

                        break;

                    case ICMP_HOST_UNREACH:

                        printf("主机不可到达
"); 

                        break;

                    case  ICMP_PROT_UNREACH:

                        printf("协议不可到达
");

                        break; 

                    case  ICMP_PORT_UNREACH:

                        printf("端口不可到达
");

                        break;

                    case  ICMP_FRAG_NEEDED:

                        printf("需要进行分片,但是又设置不分片位
");

                        break;

                    case  ICMP_SR_FAILED:

                        printf("源站选路失败
");

                        break;

                    case  ICMP_NET_UNKNOWN:

                        printf("目的网络不认识
");

                        break;

                    case  ICMP_HOST_UNKNOWN:

                        printf("目的主机不认识
");

                        break;

                    case  ICMP_HOST_ISOLATED:

                        printf("源主机北隔离
");

                        break;

                    case  ICMP_NET_ANO:

                        printf("目的网络被强制禁止
");

                        break;

                    case  ICMP_HOST_ANO:

                        printf("目的主机被强制禁止
");

                        break;

                    case  ICMP_NET_UNR_TOS:

                        printf("由于服务类型TOS,网络不可到达
");

                        break;

                    case  ICMP_HOST_UNR_TOS:

                        printf("由于服务类型TOS,主机不可到达
");

                        break;

                    case  ICMP_PKT_FILTERED:

                        printf("由于过滤,通信被强制禁止
");

                        break;

                    case  ICMP_PREC_VIOLATION:

                        printf("主机越权
");

                        break;

                    case  ICMP_PREC_CUTOFF:

                        printf("优先权中止生效
");

                        break;

                    default:

                        printf("未知代码
");

                        break;

                }

                break;

            case ICMP_SOURCE_QUENCH:

                printf("源端被关闭
");

                break;

            case ICMP_REDIRECT:

                switch(
 picmp->type ){

                    case ICMP_REDIR_NET:

                        printf("对网络重定向
");

                        break;

                    case ICMP_REDIR_HOST:

                        printf("对主机重定向
");  

                        break;

                    case ICMP_REDIR_NETTOS:

                        printf("对服务类型和网络重定向
"); 

                        break;

                    case ICMP_REDIR_HOSTTOS:

                        printf("对服务类型和主机重定向
");

                        break;

                    defalut:

                        printf("未知代码
");

                        break;

                }

                break;

            case ICMP_ECHO:

                printf("ping的回显请求
");   

                break;

            case ICMP_TIME_EXCEEDED:

                switch(
 picmp->type ){

                    case ICMP_EXC_TTL:

                        printf("在传输期间生存时间为0
");

                        break;

                    case ICMP_EXC_FRAGTIME:

                        printf("在数据组装期间生存时间为0
");

                        break;

                    default:

                        printf("未知代码
");

                        break;

                }

                break;

            case ICMP_PARAMETERPROB:

                switch(
 picmp->type ){

                    case 0:

                        printf("IP首部错误(包括各种差错)
");

                        break;

                    case 1:

                        printf("缺少必须的选项
");

                        break;

                    default:

                        printf("原因未知
");

                        break;

                }

                break;

            case ICMP_TIMESTAMP:

                printf("时间戳请求
");  

                break;

            case ICMP_TIMESTAMPREPLY:

                printf("时间戳应答
");  

                break;

            case ICMP_INFO_REQUEST:

                printf("信息请求
"); 

                break;

            case ICMP_INFO_REPLY:

                printf("信息应答
");

                break;

            case ICMP_ADDRESS:

                printf("地址掩码请求
");

                break;

            case ICMP_ADDRESSREPLY:

                printf("地址掩码应答
");

                break;

            default:

                printf("未知消息类型
");

                break;

        }

    printf("校验和:
 %d
",
 ntohs(picmp->checksum) );

}

void do_icmp( char *
 data )

{

    global.packet_icmp
 ++;

    struct icmphdr
 * picmp = ( struct icmphdr
 * ) data;

    if(
 global.print_flag_icmp )

        print_icmp(
 picmp );

}

void print_ip( struct iphdr
 * iph )

{

    printf("===============
 ip 头信息 ===============
");

    printf("IP
 首部长度:%d
",
 iph->ihl * 4 );

    printf("IP
 版本    :%d
",
 iph->version );

    printf("服务类型(tos):
 %d
",
 iph->tos );

    printf("总长度字节:
 %d
",
 ntohs(iph->tot_len) );

    printf("16位标识:
 %d
",
 ntohs(iph->id) );

    printf("frag
 off: %d
",
 ntohs(iph->frag_off) );

    printf("8位生存事件:
 %d
",
 iph->ttl );

    printf("8位协议:
 %d
",
 iph->protocol );

    printf("16位首部校验和:
 %d
",
 ntohs(iph->check) );

    printf("32位源IP地址 
 : %s
",
 inet_ntoa( *(struct in_addr
 *)(&iph->saddr)) );

    printf("32位目的IP地址:
 %s
",
 inet_ntoa( *(struct in_addr
 *)(&iph->daddr)) );

}

void ip_count( struct iphdr
 * iph )

{

    ip_pair[
 global.packet_ip - 1 ].source_ip = iph->saddr;

    ip_pair[
 global.packet_ip - 1 ].dest_ip = iph->daddr;

}

void do_ip( char *
 data )

{

    global.packet_ip
 ++;

    struct iphdr
 *pip;        

    pip
 = ( struct iphdr
 * ) data;    /*
 pip = point to ip layer */

    if(
 global.print_flag_ip )

        print_ip(
 pip );

    ip_count(
 pip );

    char *
 pdata = data + pip->ihl * 4;

    switch(
 pip->protocol ){

        case IPPROTO_ICMP:

            do_icmp(
 pdata );

            break;

        case IPPROTO_IGMP:

            do_igmp(
 pdata );

            break;

        case IPPROTO_TCP:

            do_tcp(
 pdata );

            break;

        case IPPROTO_UDP:

            do_udp(
 pdata );

            break;

        default:

            printf("IP:
 未知其上层协议.
");

            break;

    }

}

void print_arp( struct arphdr
 * parp )

{

    printf("硬件类型:
 %d ",
 ntohs(parp->ar_hrd) );

        switch(
 ntohs( parp->ar_hrd ) ){

            case ARPHRD_ETHER:

                printf("Ethernet
 10/100Mbps.
");  

                break;

            case ARPHRD_EETHER:

                printf("Experimental
 Ethernet.
");

                break;

            case ARPHRD_AX25:

                printf("AX.25
 Level 2.
");

                break;

            case ARPHRD_PRONET:

                printf("PROnet
 token ring.
");

                break;

            case ARPHRD_IEEE802:

                printf("IEEE
 802.2 Ethernet/TR/TB.
");

                break;

            case ARPHRD_APPLETLK:

                printf("APPLEtalk.
");

                break;

            case ARPHRD_ATM:   

                printf("ATM.
");                      

                break;

            case ARPHRD_IEEE1394:

                printf("IEEE
 1394 IPv4 .
");

                break;

            default:

                printf("Unknow.
");

                break;

        }

    printf("映射的协议地址类型:
 %d ",
 ntohs(parp->ar_pro) );

        switch(
 ntohs(parp->ar_pro) ){

            case ETHERTYPE_IP:

                printf("IP.
");

                break;

            default:

                printf("error.
");

                break;

        }

    printf("硬件地址长度:
 %d
",
 parp->ar_hln );

    printf("协议地址长度:
 %d
",
 parp->ar_pln );

    printf("操作码:
 %d ",
 ntohs(parp->ar_op) );

        switch(
 ntohs(parp->ar_op) ){

            case ARPOP_REQUEST:

                printf("ARP
 请求.
");

                break;

            case ARPOP_REPLY:  

                printf("ARP
 应答.
");

                break;

            case ARPOP_RREQUEST:

                printf("RARP
 请求.
");

                break;

            case ARPOP_RREPLY:

                printf("RARP
 应答.
");

                break;

            case ARPOP_InREQUEST:

                printf("InARP
 请求.
");

                break;

            case ARPOP_InREPLY:

                printf("InARP
 应答.
");         

                break;

            case ARPOP_NAK:

                printf("(ATM)ARP
 NAK.
");

                break;

            default:

                printf("arp
 操作码错误.
");

                break;

        }

    char *
 addr = (char*)(parp
 + 1);

    char buf[18];

    mac_to_str(
 addr, buf );

    printf("发送端以太网地址:
 %s
",
 buf );

    printf("发送端IP地址:    
 %s
",
 inet_ntoa( *(struct in_addr
 *)(addr+6) ));

    mac_to_str(
 addr+10, buf );

    printf("目的以太网地址:
 %s
",
 buf );

    printf("目的IP地址:    
 %s
",
 inet_ntoa( *(struct in_addr
 *)(addr+16) ));

}

void do_arp( char *
 data )

{

    global.packet_arp
 ++;

    struct arphdr
 * parp;

    parp
 = ( struct arphdr
 * ) data;

    if(
 global.print_flag_arp ) {

        printf("=============
 arp 头信息 ==============
");

        print_arp(
 parp );

    }

}

void do_rarp( char *
 data )

{

    global.packet_rarp
 ++;

    struct arphdr
 * parp;

    parp
 = ( struct arphdr
 * ) data;

    if(
 global.print_flag_rarp ){

        printf("=============
 rarp 头信息 =============
");

        print_arp(
 parp );

    }

}

/*
 打印以太网帧的包头信息 */

void print_frame( struct ether_header
 * peth )

{

    /*
 定义一个数组，用于存储把mac地址转换成字符串后的字符串 */

    char buf[
 18 ];

    printf("
==================================  
 第 %d 个包  =======================================

",
 global.packet_num );

    printf("====
 以太网帧信息 =====
");

    char *
 shost = peth->ether_shost;

    mac_to_str(
 shost, buf );      

    printf("源以太网地址: 
 %s
",
 buf );

    char *
 dhost = peth->ether_dhost;

    mac_to_str(
 dhost, buf );

    printf("目的以太网地址:%s
",
 buf );

}

/*
 用于从网卡接受一帧数据,同时根据以太网协议字段传递数据给相应的上层协议处理 */

void do_frame( int sock
 )

{

    /*
 用于存储一帧数据         */

    char frame_buf[
 2000 ];

    /*
 清空帧数据缓冲区     */

    bzero(
 frame_buf, sizeof(frame_buf)
 );

    int len
 = sizeof(
 frame_buf );

    /*
 用于存储接受字节数       */

    int recv_num;

    /*
 用于存储发送方的地址信息 */

    struct sockaddr_in
 addr;

    /*
 从网卡接收一帧数据       */

        recv_num
 = recvfrom( sock, (char *)frame_buf, sizeof(
 frame_buf ), 0, ( struct sockaddr
 * )&addr, &len ); 

    /*
 所接收的包的总数自加1    */

    global.packet_num
 ++;

    /*
 从网卡接收的字节总数     */

    global.bytes
 += recv_num;

    /*
 打印接收的包是第几个包   */

    //printf("此帧数据长度:
 %d
", recv_num );

    /*
 定义一个用于指向以太网帧的指针 (这里我们只考虑最常见的以太网帧的情况) */

    struct ether_header
 * peth;

    /*
 让以太网头指针指向从网卡接受到的帧的数据的开头 */

        peth
 = (struct ether_header
 *)frame_buf;

    /*
 传递以太网帧首地址给打印以太网帧信息的打印函数 */

    if(
 global.print_flag_frame )

        print_frame(
 peth );

    /*
 定义一个数据指针,用于指向以太网帧的数据部分    */

    char *
 pdata;

    /*
 让 pdata 指向以太网帧的数据部分                */

    pdata
 = frame_buf + sizeof( struct ether_header
 );

    /*
 根据以太网帧的协议字段进行数据分用 － 也就是进行数据拆封，根据协议字段调用相应层的处理函数 */

        switch(
 ntohs( peth->ether_type ) ){

            case ETHERTYPE_PUP:

            break;

        case ETHERTYPE_IP:

            do_ip(
 pdata );

            break;

        case ETHERTYPE_ARP:

            do_arp(
 pdata );

            break;

        case ETHERTYPE_REVARP:

            do_rarp(
 pdata );

            break;

        default:

            printf("Unkonw
 ethernet type  %d %x.
",
 ntohs(peth->ether_type), ntohs(peth->ether_type) );

            break;

       }

}

/*
 主函数, 处理命令行输入, 设置好全局变量, 并调用接受和处理帧的函数 */

int main( int argc, char **
 argv ) 

{ 

    /*
 用于存储套接口文件描述符 */

    int sockfd;

    /*
 初始化全局变量    */

    init_global(
 &global );

    if(
 argc == 1 ) {               /*
 表示打印所有包头信息 */

        global.print_flag_frame
 = 1;

        global.print_flag_arp
 = 1;

        global.print_flag_ip
 = 1;

        global.print_flag_rarp
 = 1;

        global.print_flag_tcp
 = 1;

        global.print_flag_udp
 = 1;

        global.print_flag_icmp
 = 1;

        global.print_flag_igmp
 = 1;

    } else {               /*
 帮助 或者 通过指定协议名称只打印某层些协议 */

        if(
 !strcasecmp( argv[1], "-h" )
 ){

            help();

            exit(
 0 );

        } else {

            int i;

            for(
 i=1; i < argc; i++ ){

                if(
 !strcasecmp( argv[i], "frame" )
 )

                    global.print_flag_frame
 = 1;

                else if(
 !strcasecmp( argv[i], "arp" )
 )

                    global.print_flag_arp
 = 1;

                else if(
 !strcasecmp( argv[i], "rarp" )
 )

                    global.print_flag_rarp
 = 1;

                else if(
 !strcasecmp( argv[i], "ip" )
 )

                    global.print_flag_ip
 = 1;

                else if(
 !strcasecmp( argv[i], "tcp" )
 )

                    global.print_flag_tcp
 = 1;

                else if(
 !strcasecmp( argv[i], "udp" )
 )

                    global.print_flag_udp
 = 1;

                else if(
 !strcasecmp( argv[i], "icmp" )
 )

                    global.print_flag_icmp
 = 1;

                else if(
 !strcasecmp( argv[i], "igmp" )
 )

                    global.print_flag_igmp
 = 1;

            }

        }

    }

    /*
 通过协议族AF_PACKET类信SOCK_RAW, 类型SOCK_RAW创建一个用于可以接受网卡帧数据的套接口,同时返回套就口文件描述符 */

    if(
 (sockfd = socket(AF_PACKET, SOCK_RAW, htons(ETH_P_ALL)) ) == -1 )

            error_and_exit( "socket",
 1 );  /*
 如果发生错误，返回错误值, 并退出 */

    /*
 设定网卡eth0成混杂模式 */

    set_card_promisc( "eth0",
 sockfd );

    /*
 设定信号处理函数, 下面是设置当我们按下ctrl-c时所调用的处理函数 */  

    signal(
 SIGINT, sig_int );

    /*
 无限循环接收以太网卡数据帧, 并进行数据分用,直到你按下ctrl-c */

    while(
 1 ){

        do_frame(
 sockfd );

    } 

    return 0;

}
　　参考资料：
http://www.cnblogs.com/rollenholt/articles/2585432.html
http://www.binarytides.com/blog/c-packet-sniffer-code-with-libpcap-and-linux-sockets-bsd/
http://www.binarytides.com/blog/packet-sniffer-code-in-c-using-linux-sockets-bsd-part-2/
http://www.binarytides.com/blog/packet-sniffer-code-in-c-using-linux-sockets-bsd/