guniffer.cpp

sniffer for win 2k/><P 用winrar解压

//////////////////////////////////////////////////////////////////////////
//												     					//				
//	GUNiffer    For Win2K by Shotgun				     				//
//																		//
//	Version:	0.30 Beta												//
//	Released:	[2001.4]									    		//
//	Author:		[Shotgun]										    	//
//	Homepage:														    //
//				[http://IT.Xici.Net]								    //
//				[http://www.Patching.Net]							    //
//																	    //
//////////////////////////////////////////////////////////////////////////
#include <math.h>
#include <stdio.h>
#include <string.h>
#include <Winsock2.h>
#include <mstcpip.h>

#define STATUS_FAILED 0xFFFF		//定义异常出错代码
#define MAX_PACK_LEN  65535			//接收的最大IP报文	
#define MAX_ADDR_LEN  16			//点分十进制地址的最大长度
#define MAX_PROTO_TEXT_LEN	16		//子协议名称(如"TCP")最大长度
#define MAX_PROTO_NUM 12			//子协议数量
#define MAX_HOSTNAME_LAN 255		//最大主机名长度
#define CMD_PARAM_HELP true

typedef struct _iphdr 
{
	unsigned char	h_lenver;		//4位首部长度+4位IP版本号
	unsigned char	tos;			//8位服务类型TOS
	unsigned short	total_len;		//16位总长度（字节）
	unsigned short	ident;			//16位标识
	unsigned short	frag_and_flags;	//3位标志位
	unsigned char	ttl;			//8位生存时间 TTL
	unsigned char	proto;			//8位协议 (TCP, UDP 或其他)
	unsigned short	checksum;		//16位IP首部校验和
	unsigned int	sourceIP;		//32位源IP地址
	unsigned int	destIP;			//32位目的IP地址
}IP_HEADER;

typedef struct _tcphdr				//定义TCP首部
{
	USHORT th_sport;				//16位源端口
	USHORT th_dport;				//16位目的端口
	unsigned int  th_seq;			//32位序列号
	unsigned int  th_ack;			//32位确认号
	unsigned char th_lenres;		//4位首部长度/6位保留字
	unsigned char th_flag;			//6位标志位
	USHORT th_win;					//16位窗口大小
	USHORT th_sum;					//16位校验和
	USHORT th_urp;					//16位紧急数据偏移量
}TCP_HEADER;

typedef struct _udphdr				//定义UDP首部
{
    unsigned short uh_sport;		//16位源端口
    unsigned short uh_dport;		//16位目的端口
    unsigned short uh_len;			//16位长度
    unsigned short uh_sum;			//16位校验和
} UDP_HEADER;

typedef struct _icmphdr				//定义ICMP首部
{
	BYTE   i_type;					//8位类型
	BYTE   i_code;					//8位代码
	USHORT i_cksum;					//16位校验和 
	USHORT i_id;					//识别号（一般用进程号作为识别号）
	USHORT i_seq;					//报文序列号	
	ULONG  timestamp;				//时间戳
}ICMP_HEADER;

typedef struct _protomap			//定义子协议映射表
{
	int  ProtoNum;
	char ProtoText[MAX_PROTO_TEXT_LEN];
}PROTOMAP;

PROTOMAP ProtoMap[MAX_PROTO_NUM]={	//为子协议映射表赋值
		{ IPPROTO_IP   , "IP  " }, 
		{ IPPROTO_ICMP , "ICMP" },  
		{ IPPROTO_IGMP , "IGMP" }, 
		{ IPPROTO_GGP  , "GGP " },  
		{ IPPROTO_TCP  , "TCP " },  
		{ IPPROTO_PUP  , "PUP " },  
		{ IPPROTO_UDP  , "UDP " },  
		{ IPPROTO_IDP  , "IDP " },  
		{ IPPROTO_ND   , "NP  " },  
		{ IPPROTO_RAW  , "RAW " },  
		{ IPPROTO_MAX  , "MAX " },
		{ NULL , ""	} };

SOCKET SockRaw;
char TcpFlag[6]={'F','S','R','P','A','U'};	//定义TCP标志位
bool ParamTcp	=false;				// -t关注TCP 报文
bool ParamUdp	=false;				// -u关注UDP 报文	
bool ParamIcmp	=false;				// -i关注ICMP报文
bool ParamDecode=false;				// -d对协议进行解码
char *strFromIpFilter=NULL;			// 源IP地址过滤
char *strDestIpFilter=NULL;			// 目的地址过滤
char *strSensitive=NULL;			// 敏感字符串
int  iPortFilter=0;					// 端口过滤
int iProtocol, iTTL;				
char szProtocol[MAX_PROTO_TEXT_LEN];
char szSourceIP[MAX_ADDR_LEN], szDestIP[MAX_ADDR_LEN];

int DecodeIpPack(char *, int);		//IP解包函数
int DecodeTcpPack(char *, int);		//TCP解包函数
int DecodeUdpPack(char *, int);		//UDP解包函数
int DecodeIcmpPack(char *, int);	//ICMP解包函数
void CheckSockError(int, char*);	//出错处理函数
char * CheckProtocol(int);			//协议检查
void usage(void);					//使用说明
bool GetCmdLine(int, char **);		//命令行参数处理

void main(int argc, char ** argv)
{
	int iErrorCode;
	char RecvBuf[MAX_PACK_LEN] = {0};
	usage();
	if(GetCmdLine(argc, argv)==CMD_PARAM_HELP) exit(0);
	//初始化SOCKET
	WSADATA wsaData;
	iErrorCode = WSAStartup(MAKEWORD(2,1),&wsaData);
	CheckSockError(iErrorCode, "WSAStartup");
	SockRaw = socket(AF_INET , SOCK_RAW , IPPROTO_IP);
	CheckSockError(SockRaw, "socket");
	//获取本机IP地址
	char FAR name[MAX_HOSTNAME_LAN];
	iErrorCode = gethostname(name, MAX_HOSTNAME_LAN);
	CheckSockError(iErrorCode, "gethostname");
	struct hostent FAR * pHostent;
	pHostent = (struct hostent * )malloc(sizeof(struct hostent));
	pHostent = gethostbyname(name);
	SOCKADDR_IN sa;
	sa.sin_family = AF_INET;
 	sa.sin_port = htons(6000);
	memcpy(&sa.sin_addr.S_un.S_addr, pHostent->h_addr_list[0], pHostent->h_length);
	free(pHostent);
	iErrorCode = bind(SockRaw, (PSOCKADDR)&sa, sizeof(sa));
	CheckSockError(iErrorCode, "bind");
	//设置SOCK_RAW为SIO_RCVALL，以便接收所有的IP包
	DWORD dwBufferLen[10] ;
	DWORD dwBufferInLen = 1 ;
	DWORD dwBytesReturned = 0 ;
	iErrorCode=WSAIoctl(SockRaw, SIO_RCVALL,&dwBufferInLen, sizeof(dwBufferInLen),             
                        &dwBufferLen, sizeof(dwBufferLen),&dwBytesReturned , NULL , NULL );
	CheckSockError(iErrorCode, "Ioctl");
	//侦听IP报文
	while(1)
	{
		memset(RecvBuf, 0, sizeof(RecvBuf));
		iErrorCode = recv(SockRaw, RecvBuf, sizeof(RecvBuf), 0);
		CheckSockError(iErrorCode, "recv");
		iErrorCode = DecodeIpPack(RecvBuf, iErrorCode);
		CheckSockError(iErrorCode, "Decode");
	}
}

//IP解包程序
int DecodeIpPack(char *buf, int iBufSize)
{
	IP_HEADER *pIpheader;
	SOCKADDR_IN saSource, saDest;
	pIpheader = (IP_HEADER *)buf;
//协议甄别
	iProtocol = pIpheader->proto;
	strncpy(szProtocol, CheckProtocol(iProtocol), MAX_PROTO_TEXT_LEN);
	if((iProtocol==IPPROTO_TCP) && (!ParamTcp)) return true;
	if((iProtocol==IPPROTO_UDP) && (!ParamUdp)) return true;
	if((iProtocol==IPPROTO_ICMP) && (!ParamIcmp)) return true;
//源地址
	saSource.sin_addr.s_addr = pIpheader->sourceIP;
	strncpy(szSourceIP, inet_ntoa(saSource.sin_addr), MAX_ADDR_LEN);
	if (strFromIpFilter)
		if (strcmp(strFromIpFilter,szSourceIP)) return true;
//目的地址
	saDest.sin_addr.s_addr = pIpheader->destIP;
	strncpy(szDestIP, inet_ntoa(saDest.sin_addr), MAX_ADDR_LEN);
	if (strDestIpFilter)
		if (strcmp(strDestIpFilter,szDestIP)) return true;
	iTTL = pIpheader->ttl;
//计算IP首部的长度
	int iIphLen = sizeof(unsigned long) * (pIpheader->h_lenver & 0xf);
//根据协议类型分别调用相应的函数
	switch(iProtocol)
	{
		case IPPROTO_TCP	:DecodeTcpPack(buf+iIphLen, iBufSize);break;
		case IPPROTO_UDP	:DecodeUdpPack(buf+iIphLen, iBufSize);break;
		case IPPROTO_ICMP	:DecodeIcmpPack(buf+iIphLen, iBufSize);break;
		default				:break;
	}
	//printf("\n");
	return true;
}

//协议识别程序
char * CheckProtocol(int iProtocol)
{
	for(int i=0; i<MAX_PROTO_NUM; i++)
			if(ProtoMap[i].ProtoNum==iProtocol) 
				return ProtoMap[i].ProtoText;
	return "";
}

//TCP解包程序
int DecodeTcpPack(char * TcpBuf, int iBufSize)
{
	TCP_HEADER * pTcpHeader;
	int i;
	int iSourcePort,iDestPort;
	
	pTcpHeader = (TCP_HEADER * )TcpBuf;
	//计算TCP首部长度
	int TcpHeaderLen =  pTcpHeader->th_lenres>>4;
	TcpHeaderLen *= sizeof(unsigned long);
	char * TcpData=TcpBuf+TcpHeaderLen;
	//如果过滤敏感字符串则判断是否包含
	if (strSensitive) 
		if ((strstr(TcpData, strSensitive))==NULL) return true;
	//对端口进行过滤
	iSourcePort = ntohs(pTcpHeader->th_sport);
	iDestPort = ntohs(pTcpHeader->th_dport);
	if ((iPortFilter) && (iSourcePort!=iPortFilter) && (iDestPort!=iPortFilter))
		return true;
	//输出
	printf("%s ", szProtocol);
	printf("%15s:%5d ->%15s:%5d  ", szSourceIP, iSourcePort, szDestIP, iDestPort);
	printf("TTL=%3d  ", iTTL);
	//判断TCP标志位
	unsigned char FlagMask = 1;
	for( i=0; i<6; i++ )
	{
		if((pTcpHeader->th_flag) & FlagMask) printf("%c",TcpFlag[i]);
		else printf("-");
		FlagMask=FlagMask<<1;
	}
	printf("  bytes=%4d", iBufSize);
	printf("\n");
	//对于长度大于40字节的包进行数据分析(IP_HEADER+TCP_HEADER=40)
	if ((ParamDecode) && (iBufSize>40))
	{
		//分析TCP数据段
		if ((!strSensitive) || (strstr(TcpData,strSensitive)))
		{
			printf(" [DATA]\n");
			printf("%s",TcpData);
			printf("\n [DATA END]\n\n\n");
		}
	}
	return true;
}

//UDP解包程序
int DecodeUdpPack(char * UdpBuf, int iBufSize)
{
	UDP_HEADER *pUdpHeader;
	pUdpHeader = (UDP_HEADER * )UdpBuf;
	int iSourcePort = ntohs(pUdpHeader->uh_sport);
	int iDestPort = ntohs(pUdpHeader->uh_dport);
	//对端口进行过滤
	if(iPortFilter)
		if ((iSourcePort!=iPortFilter) && (iDestPort!=iPortFilter))
			return true;
	printf("%s ", szProtocol);
	printf("%15s:%5d ->%15s:%5d  ", szSourceIP, iSourcePort, szDestIP, iDestPort);
	printf("TTL=%3d ", iTTL);
	printf("Len=%4d ", ntohs(pUdpHeader->uh_len));
	printf("bytes=%4d", iBufSize);
	printf("\n");
	//对于长度大于28字节的包进行数据分析(IP_HEADER+UDP_HEADER>28)
	if ((ParamDecode) && (iBufSize>28))
	{
		printf(" [DATA]\n");
		//UDP首部长度为8
		char * UdpData=UdpBuf+8;
		//分析UDP数据段
		for(unsigned int i=0;i<(iBufSize-sizeof(UDP_HEADER));i++) 
		{
			if (!(i%8)) printf("\n"); 
			if ( (UdpData[i]>33) && (UdpData[i]<122) )
					printf("%3c [%3x]", UdpData[i], UdpData[i]);
			else printf("    [%3x]", abs(UdpData[i]));
		}
		printf("\n [DATA END]\n\n\n");
	}
	return true;
}

//ICMP解包程序
int DecodeIcmpPack(char * IcmpBuf, int iBufSize)
{
	ICMP_HEADER * pIcmpHeader;
	pIcmpHeader = (ICMP_HEADER * )IcmpBuf;
	int iIcmpType = pIcmpHeader->i_type;
	int iIcmpCode = pIcmpHeader->i_code;
	//对类型进行过滤
	if ((iPortFilter) && (iIcmpType!=iPortFilter)) return true;
	printf("%s ", szProtocol);
	//printf("%15s Type%d ->%15s Code%d  ", szSourceIP, iIcmpType, szDestIP, iIcmpCode);
	printf("%15s       ->%15s        ", szSourceIP, szDestIP);
	printf("TTL=%3d ", iTTL);
	printf("Type%2d,%d ",iIcmpType,iIcmpCode);
	printf("bytes=%4d", iBufSize);
	printf("\n");
	//对于包含数据段的包进行数据分析
	if ((ParamDecode) && (iBufSize>28))
	{
		char * IcmpData=IcmpBuf+4;
		//分析ICMP数据段
		printf(" [DATA]");
		for(unsigned int i=0;i<(iBufSize-sizeof(ICMP_HEADER));i++) 
		{
			if (!(i%8)) printf("\n"); 
			if ( (IcmpData[i]>33) && (IcmpData[i]<122) )
					printf("%3c [%3x]", IcmpData[i], IcmpData[i]);
			else printf("    [%3x]", abs(IcmpData[i]));
		}
		printf("\n [DATA END]\n\n\n");
	}
	return true;
}

//命令行参数处理
bool GetCmdLine(int argc, char ** argv)
{
	if (argc<2) return CMD_PARAM_HELP;
	for(int i=1;i<argc;i++)
	{
		if(argv[i][0]!='/') return CMD_PARAM_HELP;
		else switch (argv[i][1])
			{
				case 't': 
				case 'T': ParamTcp=true; break;
				case 'u':
				case 'U': ParamUdp=true; break;
				case 'i':
				case 'I': ParamIcmp=true; break;
				case 'p':
				case 'P': ParamDecode=true; break;
				case 'f':
				case 'F': 
					{
						strFromIpFilter=(char*)malloc(16*sizeof(char));
						memset(strFromIpFilter,0,16*sizeof(char));
						strcpy(strFromIpFilter,argv[i]+3); 
						break; 
					}
				case 'd':
				case 'D':
					{
						strDestIpFilter=(char*)malloc(16*sizeof(char));
						memset(strDestIpFilter,0,16*sizeof(char));
						strcpy(strDestIpFilter,argv[i]+3); 
						break;
					}
				case 's':
				case 'S':
					{
						strSensitive=(char*)malloc(255*sizeof(char));
						memset(strSensitive,0,255*sizeof(char));
						strcpy(strSensitive,argv[i]+3); 
						break;
					}
				case 'o':
				case 'O':
					{
						iPortFilter=atoi(argv[i]+3);
						break;
					}
			}
	} 
	printf("\nWill Sniffer");
	if(ParamTcp) printf(" TCP");
	if(ParamUdp) printf(" UDP");
	if(ParamIcmp) printf(" ICMP");
	if(strFromIpFilter) printf(" FromIp:%s",strFromIpFilter);
	if(strDestIpFilter) printf(" DestIp:%s",strDestIpFilter);
	if(ParamDecode) printf(" DECODE ON");
	if(strSensitive) printf(" Sensitive String:'%s'",strSensitive);
	printf("\n\tCTRL+C to quit\nStart:\n");
	return (!CMD_PARAM_HELP);
}

//使用说明
void usage(void)
{
	printf("GUNiffer\n");
	printf("\tSinffer for Win2K By Shotgun (Ver 0.3)\n");
	printf("\tShotgun@Xici.net\n");
	printf("\thttp://It.Xici.Net\n");
	printf("\thttp://www.Patching.Net\n\n");
	printf("USAGE:\n");
	printf("\t/t          Output TCP  Packets\n");
	printf("\t/u          Output UDP  Packets\n");
	printf("\t/i          Output ICMP Packets\n");
	printf("\t/p          Decode Packets (default OFF)\n");
	printf("\t/f: fromIP  Output Packets FromIp=fromIP (default ALL)\n");
	printf("\t/d: destIP  Output Packets DestIp=destIP (default ALL)\n");
	printf("\t/s: string  Output Packets Include sensitive String(TCP only)\n");
	printf("\t/o: port    Output Packets from or to the port(ICMP is TYPE)\n");
	printf("Example:\n");
	printf("\tGUNiffer.exe /d>GUNiffer.log\n");
	printf("\tGUNiffer.exe /t /u /f:192.168.15.231\n");
	printf("\tGUNiffer.exe /t /p /s:PASS\n");
}

//SOCK错误处理程序
void CheckSockError(int iErrorCode, char *pErrorMsg)
{
	if(iErrorCode==SOCKET_ERROR) 
	{
		printf("%s Error:%d\n", pErrorMsg, GetLastError());
		closesocket(SockRaw);
		exit(0);
	}
	 
}