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traceroute程序剖析

时间:2016-06-12 03:14:50      阅读:265      评论:0      收藏:0      [点我收藏+]

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    traceroute允许我们确定IP数据报从本地主机游历到某个远程主机所经过的路径。

    我们先来说明tranceroute的工作原理:是IP路由过程中对数据包TTL(Time to Live,存活时间)的处理。当路由器收到一个IP包时,会修改IP包的TTL(及由此造成的头部检测和checksum变化)。每收到一个包,检查这个的TTL是否是0或1.如果是,表明这个包还没有到达目的地,而且剩余时间不多了,肯定是到不了目的地了。这样路由器就简单地丢弃这个包,并给源主机发送ICMP通知,说明这个包已经过时了。ICMP的通知信息里包含当前路由器发送时所用的IP。

    这样就可以通过构造数据包,来间接检查到达一个主机时经过了哪些路由器。一开始发送一个TTL为1的包,这样到达第一个路由器的时侯就已经超时了,第一个路由器就发通知说包超时,这样就可以记录下所经过的第一个路由器所的IP。然后TTL加1,安全通过第一个路由器,而第二个路由器的处理与第一个相同,丢包,发通知说包超时了。这样记录下的第二个路由器IP,由此可以一直下去,直到这个数据包到达目标主机,由此打印所有经过的路由器。

    在通信中,IP层只负责数据的路由与传输,并不处理数据包的内容。例如ICMP,或TCP,UDP,这些协议是依赖IP层的传输功能来传输数据的。在通信双方的主机中,收到这些协议的数据包后,一般在通信的对应主机上,会有程序来处理这些数据。因此traceroute程序发送一个UDP包来试探。对路由器来说,UDP数据报只是IP数据报的一种,它并不关心UDP数据报的具体内容。直到这个包到达目的端口的主机,目的主机的内核会解析UDP数据报,并查找数据报中要求的端口是否已经有进程在使用。如果找到,则通知进程有数据到达。而如果找不到,则发送一个“目的端口不可达”的ICMP错误数据回到源主机。

      这样就可以完全确定下来。trcertroute建立一个UDP数据包,不断修改TTL值并发送出去,如果收到"超时错",表示刚刚到达的是路由器,而如果收到的是"端口不可达"错误,表示刚刚到达的就是目的主机。这样路由跟踪完成,程序结束。

   

下面给出部分源码(主要针对IPv4):

trace.h:

#include	"unp.h"
#include	<netinet/in_systm.h>
#include	<netinet/ip.h>
#include	<netinet/ip_icmp.h>
#include	<netinet/udp.h>

#define	BUFSIZE		1500

struct rec {					/* format of outgoing UDP data */
  u_short	rec_seq;			/* sequence number */
  u_short	rec_ttl;			/* TTL packet left with */
  struct timeval	rec_tv;		/* time packet left */
};

			/* globals */
char	 recvbuf[BUFSIZE];
char	 sendbuf[BUFSIZE];

int		 datalen;			/* # bytes of data following ICMP header */
char	*host;
u_short	 sport, dport;
int		 nsent;				/* add 1 for each sendto() */
pid_t	 pid;				/* our PID */
int		 probe, nprobes;
int		 sendfd, recvfd;	/* send on UDP sock, read on raw ICMP sock */
int		 ttl, max_ttl;
int		 verbose;

			/* function prototypes */
const char	*icmpcode_v4(int);
int		 recv_v4(int, struct timeval *);
void	 sig_alrm(int);
void	 traceloop(void);
void	 tv_sub(struct timeval *, struct timeval *);

struct proto {
  const char	*(*icmpcode)(int);
  int	 (*recv)(int, struct timeval *);
  struct sockaddr  *sasend;	/* sockaddr{} for send, from getaddrinfo */
  struct sockaddr  *sarecv;	/* sockaddr{} for receiving */
  struct sockaddr  *salast;	/* last sockaddr{} for receiving */
  struct sockaddr  *sabind;	/* sockaddr{} for binding source port */
  socklen_t   		salen;	/* length of sockaddr{}s */
  int			icmpproto;	/* IPPROTO_xxx value for ICMP */
  int	   ttllevel;		/* setsockopt() level to set TTL */
  int	   ttloptname;		/* setsockopt() name to set TTL */
} *pr;

#ifdef	IPV6

#include	<netinet/ip6.h>
#include	<netinet/icmp6.h>

#endif

main.c:

#include	"trace.h"

struct proto	proto_v4 = { icmpcode_v4, recv_v4, NULL, NULL, NULL, NULL, 0,
							 IPPROTO_ICMP, IPPROTO_IP, IP_TTL };


int		datalen = sizeof(struct rec);	/* defaults */
int		max_ttl = 30;
int		nprobes = 3;
u_short	dport = 32768 + 666;

int
main(int argc, char **argv)
{
	int				c;
	struct addrinfo	*ai;
	char *h;

	opterr = 0;		/* don't want getopt() writing to stderr */
        //对命令行参数的处理
	while ( (c = getopt(argc, argv, "m:v")) != -1) {
		switch (c) {
		case 'm':
			if ( (max_ttl = atoi(optarg)) <= 1)
				err_quit("invalid -m value");
			break;

		case 'v':
			verbose++;
			break;

		case '?':
			err_quit("unrecognized option: %c", c);
		}
	}

	if (optind != argc-1)
		err_quit("usage: traceroute [ -m <maxttl> -v ] <hostname>");
	host = argv[optind];

	pid = getpid();
	Signal(SIGALRM, sig_alrm);

        //处理目的主机或ip,返回一个指向addrinfo结构体的指针
	ai = Host_serv(host, NULL, 0, 0);

	h = Sock_ntop_host(ai->ai_addr, ai->ai_addrlen);
	printf("traceroute to %s (%s): %d hops max, %d data bytes\n",
		   ai->ai_canonname ? ai->ai_canonname : h,
		   h, max_ttl, datalen);

		/* initialize according to protocol */
	if (ai->ai_family == AF_INET) {
                //当协议为IPv4时,初始化协议结构体
		pr = &proto_v4;
	} else
		err_quit("unknown address family %d", ai->ai_family);

	pr->sasend = ai->ai_addr;		/* contains destination address */
	pr->sarecv = Calloc(1, ai->ai_addrlen);
	pr->salast = Calloc(1, ai->ai_addrlen);
	pr->sabind = Calloc(1, ai->ai_addrlen);
	pr->salen = ai->ai_addrlen;

	traceloop();

	exit(0);
}

traceloop.c:

#include	"trace.h"

void
traceloop(void)
{
	int					seq, code, done;
	double				rtt;
	struct rec			*rec;
	struct timeval		tvrecv;
   
        //创建原始套接字
	recvfd = Socket(pr->sasend->sa_family, SOCK_RAW, pr->icmpproto);
	setuid(getuid());		/* don't need special permissions anymore */

#ifdef	IPV6
	if (pr->sasend->sa_family == AF_INET6 && verbose == 0) {
		struct icmp6_filter myfilt;
		ICMP6_FILTER_SETBLOCKALL(&myfilt);
		ICMP6_FILTER_SETPASS(ICMP6_TIME_EXCEEDED, &myfilt);
		ICMP6_FILTER_SETPASS(ICMP6_DST_UNREACH, &myfilt);
		setsockopt(recvfd, IPPROTO_IPV6, ICMP6_FILTER,
					&myfilt, sizeof(myfilt));
	}
#endif

        //创建数据报套接字
	sendfd = Socket(pr->sasend->sa_family, SOCK_DGRAM, 0);

	pr->sabind->sa_family = pr->sasend->sa_family;
	sport = (getpid() & 0xffff) | 0x8000;	/* our source UDP port # */
        //设置端口
	sock_set_port(pr->sabind, pr->salen, htons(sport));
        //监听udp数据报的套接字
	Bind(sendfd, pr->sabind, pr->salen);

	sig_alrm(SIGALRM);

	seq = 0;
	done = 0;
	for (ttl = 1; ttl <= max_ttl && done == 0; ttl++) {
                //进入循环之后每次首先设置生存时间,pr->ttllevel = IPPROTO_IP
                //pr->ttloptname = IP_TTL
		Setsockopt(sendfd, pr->ttllevel, pr->ttloptname, &ttl, sizeof(int));
                //清空pr->salast指向的套接字结构
		bzero(pr->salast, pr->salen);

		printf("%2d ", ttl);
		fflush(stdout);
  
                //nprobes = 3
		for (probe = 0; probe < nprobes; probe++) {
                        
			rec = (struct rec *) sendbuf;
                        //设置序列号
			rec->rec_seq = ++seq;
                        //设置跳数
			rec->rec_ttl = ttl;
                        //获取当前时间
			Gettimeofday(&rec->rec_tv, NULL);
                        //设置发送套接字的端口
			sock_set_port(pr->sasend, pr->salen, htons(dport + seq));
                        //发送数据
			Sendto(sendfd, sendbuf, datalen, 0, pr->sasend, pr->salen);

			if ( (code = (*pr->recv)(seq, &tvrecv)) == -3)
				printf(" *");		/* timeout, no reply */
			else {
				char	str[NI_MAXHOST];
                                //如果发送应答icmp的节点ip地址发生变化,显示应答发送主机的主机名和ip地址
				if (sock_cmp_addr(pr->sarecv, pr->salast, pr->salen) != 0) {
					if (getnameinfo(pr->sarecv, pr->salen, str, sizeof(str),
									NULL, 0, 0) == 0)
						printf(" %s (%s)", str,
								Sock_ntop_host(pr->sarecv, pr->salen));
					else
						printf(" %s",
								Sock_ntop_host(pr->sarecv, pr->salen));
					memcpy(pr->salast, pr->sarecv, pr->salen);
				}
                                //计算往返时间
				tv_sub(&tvrecv, &rec->rec_tv);
				rtt = tvrecv.tv_sec * 1000.0 + tvrecv.tv_usec / 1000.0;
				printf("  %.3f ms", rtt);
                                //显示ICMP代码值
				if (code == -1)		/* port unreachable; at destination */
					done++;
				else if (code >= 0)
					printf(" (ICMP %s)", (*pr->icmpcode)(code));
			}
			fflush(stdout);
		}
		printf("\n");
	}
}

recv_v4.c:

#include	"trace.h"

extern int gotalarm;

/*
 * Return: -3 on timeout
 *		   -2 on ICMP time exceeded in transit (caller keeps going)
 *		   -1 on ICMP port unreachable (caller is done)
 *		 >= 0 return value is some other ICMP unreachable code
 */

int
recv_v4(int seq, struct timeval *tv)
{
	int				hlen1, hlen2, icmplen, ret;
	socklen_t		len;
	ssize_t			n;
	struct ip		*ip, *hip;
	struct icmp		*icmp;
	struct udphdr	*udp;

	gotalarm = 0;
	alarm(3);
	for ( ; ; ) {
		if (gotalarm)
			return(-3);		/* alarm expired */
		len = pr->salen;
                //接收数据
		n = recvfrom(recvfd, recvbuf, sizeof(recvbuf), 0, pr->sarecv, &len);
		if (n < 0) {
			if (errno == EINTR)
				continue;
			else
				err_sys("recvfrom error");
		}
                //获取ip的头
		ip = (struct ip *) recvbuf;	/* start of IP header */
                //获取ip报文的长度
		hlen1 = ip->ip_hl << 2;		/* length of IP header */
	        //获取icmp报文的头部
		icmp = (struct icmp *) (recvbuf + hlen1); /* start of ICMP header */
		if ( (icmplen = n - hlen1) < 8)
			continue;				/* not enough to look at ICMP header */
	
		if (icmp->icmp_type == ICMP_TIMXCEED &&
			icmp->icmp_code == ICMP_TIMXCEED_INTRANS) {
                //第一种情况处理ICMP传输中超时错误,“time exceeded in transmit”
			if (icmplen < 8 + sizeof(struct ip))
				continue;			/* not enough data to look at inner IP */
                        //将hip指向在ICMP消息中返回的IPv4首部,它跟在8字节的ICMP首部之后
			hip = (struct ip *) (recvbuf + hlen1 + 8);
			hlen2 = hip->ip_hl << 2;
			if (icmplen < 8 + hlen2 + 4)
				continue;			/* not enough data to look at UDP ports */
                        //udp指向跟在这个IPv4首部之后的UDP首部
			udp = (struct udphdr *) (recvbuf + hlen1 + 8 + hlen2);
                        //如果ICMP返回的错误是由于某个UDP数据报引起的,并且UDP数据报的源端口和目的端口是本进程发送的值
                        //那么它是某个中间路由器的响应我们的探测分组的一个应答
 			if (hip->ip_p == IPPROTO_UDP &&
				udp->source == htons(sport) &&
				udp->dest == htons(dport + seq)) {
				ret = -2;		/* we hit an intermediate router */
                                //返回-2
				break;
			}

		} else if (icmp->icmp_type == ICMP_UNREACH) {
                //当返回ICMP为端口不可达时
			if (icmplen < 8 + sizeof(struct ip))
				continue;			/* not enough data to look at inner IP */

                        //将hip指向在ICMP消息中返回的IPv4首部,它跟在8字节的ICMP首部之后
			hip = (struct ip *) (recvbuf + hlen1 + 8);
			hlen2 = hip->ip_hl << 2;
			if (icmplen < 8 + hlen2 + 4)
				continue;			/* not enough data to look at UDP ports */

                        //udp指向跟在这个IPv4首部之后的UDP首部
			udp = (struct udphdr *) (recvbuf + hlen1 + 8 + hlen2);
 			if (hip->ip_p == IPPROTO_UDP &&
                        //如果ICMP返回的错误是由于某个UDP数据报引起的,并且UDP数据报的源端口和目的端口是本进程发送的值
                        //那么它是某个中间路由器的响应我们的探测分组的一个应答
                        //
				udp->source == htons(sport) &&
				udp->dest == htons(dport + seq)) {
				if (icmp->icmp_code == ICMP_UNREACH_PORT)
                                //如果ICMP的代码为"port unreachable"
                                //返回-1,因为其探测分组已经到达最终目的地
					ret = -1;	/* have reached destination */
				else
                                //否则返回ICMP代码值
					ret = icmp->icmp_code;	/* 0, 1, 2, ... */
				break;
			}
		}
                
		if (verbose) {
			printf(" (from %s: type = %d, code = %d)\n",
					Sock_ntop_host(pr->sarecv, pr->salen),
					icmp->icmp_type, icmp->icmp_code);
		}
		/* Some other ICMP error, recvfrom() again */
	}
	alarm(0);					/* don't leave alarm running */
	Gettimeofday(tv, NULL);		/* get time of packet arrival */
	return(ret);
}

下面就是一些小的函数:

sock_set_port.c:

#include	"unp.h"

void
sock_set_port(struct sockaddr *sa, socklen_t salen, int port)
{
	switch (sa->sa_family) {
	case AF_INET: {
		struct sockaddr_in	*sin = (struct sockaddr_in *) sa;

		sin->sin_port = port;
		return;
	}

#ifdef	IPV6
	case AF_INET6: {
		struct sockaddr_in6	*sin6 = (struct sockaddr_in6 *) sa;

		sin6->sin6_port = port;
		return;
	}
#endif
	}

    return;
}

host_serv.c:

/* include host_serv */
#include	"unp.h"

struct addrinfo *
host_serv(const char *host, const char *serv, int family, int socktype)
{
	int				n;
	struct addrinfo	hints, *res;
        //清零
	bzero(&hints, sizeof(struct addrinfo));
        //用于返回主机的规范名称
	hints.ai_flags = AI_CANONNAME;	/* always return canonical name */
        //其值为0代表:协议无关
	hints.ai_family = family;		/* AF_UNSPEC, AF_INET, AF_INET6, etc. */
	hints.ai_socktype = socktype;	/* 0, SOCK_STREAM, SOCK_DGRAM, etc. */

	if ( (n = getaddrinfo(host, serv, &hints, &res)) != 0)
		return(NULL);

	return(res);	/* return pointer to first on linked list */
}
/* end host_serv */

/*
 * There is no easy way to pass back the integer return code from
 * getaddrinfo() in the function above, short of adding another argument
 * that is a pointer, so the easiest way to provide the wrapper function
 * is just to duplicate the simple function as we do here.
 */

struct addrinfo *
Host_serv(const char *host, const char *serv, int family, int socktype)
{
	int				n;
	struct addrinfo	hints, *res;

	bzero(&hints, sizeof(struct addrinfo));
	hints.ai_flags = AI_CANONNAME;	/* always return canonical name */
	hints.ai_family = family;		/* 0, AF_INET, AF_INET6, etc. */
	hints.ai_socktype = socktype;	/* 0, SOCK_STREAM, SOCK_DGRAM, etc. */

	if ( (n = getaddrinfo(host, serv, &hints, &res)) != 0)
		err_quit("host_serv error for %s, %s: %s",
				 (host == NULL) ? "(no hostname)" : host,
				 (serv == NULL) ? "(no service name)" : serv,
				 gai_strerror(n));

	return(res);	/* return pointer to first on linked list */
}

sock_set_port.c:
#include	"unp.h"

void
sock_set_port(struct sockaddr *sa, socklen_t salen, int port)
{
	switch (sa->sa_family) {
	case AF_INET: {
		struct sockaddr_in	*sin = (struct sockaddr_in *) sa;

		sin->sin_port = port;
		return;
	}

#ifdef	IPV6
	case AF_INET6: {
		struct sockaddr_in6	*sin6 = (struct sockaddr_in6 *) sa;

		sin6->sin6_port = port;
		return;
	}
#endif
	}

    return;
}

sock_ntop.c:
#include	"unp.h"

#ifdef	HAVE_SOCKADDR_DL_STRUCT
#include	<net/if_dl.h>
#endif

/* include sock_ntop */
char *
sock_ntop(const struct sockaddr *sa, socklen_t salen)
{
    char		portstr[8];
    static char str[128];		/* Unix domain is largest */

	switch (sa->sa_family) {
        //当是IPv4协议时
	case AF_INET: {
		struct sockaddr_in	*sin = (struct sockaddr_in *) sa;
                //点分十进制与二进制的转化
		if (inet_ntop(AF_INET, &sin->sin_addr, str, sizeof(str)) == NULL)
			return(NULL);
                //将端口的网络字节序转换为主机字节序
		if (ntohs(sin->sin_port) != 0) {
			snprintf(portstr, sizeof(portstr), ":%d", ntohs(sin->sin_port));
			strcat(str, portstr);
		}
		return(str);
	}
/* end sock_ntop */

#ifdef	IPV6
	case AF_INET6: {
		struct sockaddr_in6	*sin6 = (struct sockaddr_in6 *) sa;

		str[0] = '[';
		if (inet_ntop(AF_INET6, &sin6->sin6_addr, str + 1, sizeof(str) - 1) == NULL)
			return(NULL);
		if (ntohs(sin6->sin6_port) != 0) {
			snprintf(portstr, sizeof(portstr), "]:%d", ntohs(sin6->sin6_port));
			strcat(str, portstr);
			return(str);
		}
		return (str + 1);
	}
#endif

#ifdef	AF_UNIX
	case AF_UNIX: {
		struct sockaddr_un	*unp = (struct sockaddr_un *) sa;

			/* OK to have no pathname bound to the socket: happens on
			   every connect() unless client calls bind() first. */
		if (unp->sun_path[0] == 0)
			strcpy(str, "(no pathname bound)");
		else
			snprintf(str, sizeof(str), "%s", unp->sun_path);
		return(str);
	}
#endif

#ifdef	HAVE_SOCKADDR_DL_STRUCT
	case AF_LINK: {
		struct sockaddr_dl	*sdl = (struct sockaddr_dl *) sa;

		if (sdl->sdl_nlen > 0)
			snprintf(str, sizeof(str), "%*s (index %d)",
					 sdl->sdl_nlen, &sdl->sdl_data[0], sdl->sdl_index);
		else
			snprintf(str, sizeof(str), "AF_LINK, index=%d", sdl->sdl_index);
		return(str);
	}
#endif
	default:
		snprintf(str, sizeof(str), "sock_ntop: unknown AF_xxx: %d, len %d",
				 sa->sa_family, salen);
		return(str);
	}
    return (NULL);
}

char *
Sock_ntop(const struct sockaddr *sa, socklen_t salen)
{
	char	*ptr;

	if ( (ptr = sock_ntop(sa, salen)) == NULL)
		err_sys("sock_ntop error");	/* inet_ntop() sets errno */
	return(ptr);
}

sock_cmp_addr.c:

#include	"unp.h"

#ifdef	HAVE_SOCKADDR_DL_STRUCT
#include	<net/if_dl.h>
#endif

int
sock_cmp_addr(const struct sockaddr *sa1, const struct sockaddr *sa2,
			 socklen_t salen)
{
	if (sa1->sa_family != sa2->sa_family)
		return(-1);

	switch (sa1->sa_family) {
	case AF_INET: {
		return(memcmp( &((struct sockaddr_in *) sa1)->sin_addr,
					   &((struct sockaddr_in *) sa2)->sin_addr,
					   sizeof(struct in_addr)));
	}

#ifdef	IPV6
	case AF_INET6: {
		return(memcmp( &((struct sockaddr_in6 *) sa1)->sin6_addr,
					   &((struct sockaddr_in6 *) sa2)->sin6_addr,
					   sizeof(struct in6_addr)));
	}
#endif

#ifdef	AF_UNIX
	case AF_UNIX: {
		return(strcmp( ((struct sockaddr_un *) sa1)->sun_path,
					   ((struct sockaddr_un *) sa2)->sun_path));
	}
#endif

#ifdef	HAVE_SOCKADDR_DL_STRUCT
	case AF_LINK: {
		return(-1);		/* no idea what to compare here ? */
	}
#endif
	}
    return (-1);
}

sig_alrm.c:

#include	"trace.h"

int gotalarm;

void
sig_alrm(int signo)
{
	gotalarm = 1;	/* set flag to note that alarm occurred */
	return;			/* and interrupt the recvfrom() */
}

tv_sub.c:
#include	"unp.h"

void
tv_sub(struct timeval *out, struct timeval *in)
{
	if ( (out->tv_usec -= in->tv_usec) < 0) {	/* out -= in */
		--out->tv_sec;
		out->tv_usec += 1000000;
	}
	out->tv_sec -= in->tv_sec;
}

icmpcode_v4.c:
#include	"trace.h"

const char *
icmpcode_v4(int code)
{
	static char errbuf[100];
	switch (code) {
	case  0:	return("network unreachable");
	case  1:	return("host unreachable");
	case  2:	return("protocol unreachable");
	case  3:	return("port unreachable");
	case  4:	return("fragmentation required but DF bit set");
	case  5:	return("source route failed");
	case  6:	return("destination network unknown");
	case  7:	return("destination host unknown");
	case  8:	return("source host isolated (obsolete)");
	case  9:	return("destination network administratively prohibited");
	case 10:	return("destination host administratively prohibited");
	case 11:	return("network unreachable for TOS");
	case 12:	return("host unreachable for TOS");
	case 13:	return("communication administratively prohibited by filtering");
	case 14:	return("host recedence violation");
	case 15:	return("precedence cutoff in effect");
	default:	sprintf(errbuf, "[unknown code %d]", code);
				return errbuf;
	}
}

首先我们来看程序的执行结果:

技术分享

上图分别展示了自己的traceroute程序和系统的traceroute程序的执行结果。。。。

技术分享

traceroute程序剖析

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原文地址:http://blog.csdn.net/ooooo12345re/article/details/51603353

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