探测主机存活常用方式
(1)-sP :进行ping扫描
nmap -sP 10.0.3.0/24
这个命令可以用于探测局域网有哪些机器
[root@B ~]# nmap -sP 10.0.3.0/24 Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 11:24 CST Nmap scan report for 10.0.3.1 Host is up (0.0079s latency). Nmap scan report for 10.0.3.2 Host is up (0.0046s latency). Nmap scan report for 10.0.3.3 Host is up (0.0037s latency). Nmap done: 256 IP addresses (3 hosts up) scanned in 10.01 seconds [root@B ~]#
(2) -sn:
-sn: Ping Scan - disable port scan #ping探测扫描主机, 不进行端口扫描 (测试过对方主机把icmp包都丢弃掉,依然能检测到对方开机状态)
[root@B ~]# nmap -sn 10.0.1.161-166 Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 11:25 CST Nmap scan report for 10.0.1.161 Host is up (0.00076s latency). MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap scan report for 10.0.1.162 Host is up. Nmap done: 6 IP addresses (2 hosts up) scanned in 0.76 seconds [root@B ~]#
[root@B ~]# nmap 10.0.1.161 -sA Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 13:55 CST Nmap scan report for 10.0.1.161 Host is up (0.00030s latency). All 1000 scanned ports on 10.0.1.161 are unfiltered MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 1.53 seconds [root@B ~]# nmap 10.0.1.166 -sA Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 13:55 CST Note: Host seems down. If it is really up, but blocking our ping probes, try -Pn Nmap done: 1 IP address (0 hosts up) scanned in 0.51 seconds [root@B ~]#
端口扫描的高级用法
使用频率最高的扫描选项:SYN扫描,又称为半开放扫描,它不打开一个完全的TCP连接,执行得很快,效率高 (一个完整的tcp连接需要3次握手,而-sS选项不需要3次握手) Tcp SYN Scan (sS) 它被称为半开放扫描 优点:Nmap发送SYN包到远程主机,但是它不会产生任何会话,目标主机几乎不会把连接记入系统日志。(防止对方判断为扫描攻击),扫描速度快,效率高,在工作中使用频率最高 缺点:它需要root/administrator权限执行
命令如下
nmap -sS 10.0.1.161
[root@B ~]# nmap -sS 10.0.1.161 Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 11:38 CST Nmap scan report for 10.0.1.161 Host is up (0.00028s latency). Not shown: 995 closed ports PORT STATE SERVICE 22/tcp open ssh 111/tcp open rpcbind 873/tcp open rsync 7777/tcp open cbt 8888/tcp open sun-answerbook MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 1.31 seconds [root@B ~]#
Tcp connect() scan (sT)和上面的Tcp SYN 对应,TCP connect()扫描就是默认的扫描模式. 不同于Tcp SYN扫描,Tcp connect()扫描需要完成三次握手,并且要求调用系统的connect(). 优点:你勿需root权限。普通用户也可以使用。 缺点:这种扫描很容易被检测到,在目标主机的日志中会记录大批的连接请求以及错误信息,由于它要完成3次握手,效率低,速度慢,建议使用-sS
[root@B ~]# nmap -sT 10.0.1.161 Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 11:40 CST Nmap scan report for 10.0.1.161 Host is up (0.00048s latency). Not shown: 995 closed ports PORT STATE SERVICE 22/tcp open ssh 111/tcp open rpcbind 873/tcp open rsync 7777/tcp open cbt 8888/tcp open sun-answerbook MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 0.27 seconds [root@B ~]#
(3)sU:udp端口的扫描
nmap -sU 10.0.1.161
[root@B ~]# nmap -sF 10.0.1.161 Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 11:46 CST Nmap scan report for 10.0.1.161 Host is up (0.00050s latency). Not shown: 997 closed ports PORT STATE SERVICE 22/tcp open|filtered ssh 111/tcp open|filtered rpcbind 873/tcp open|filtered rsync MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 2.59 seconds [root@B ~]#
-sF、-sX、-sN
秘密FIN数据包扫描、圣诞树(XmasTree)、空(Null)扫描模式 有的防火墙可能专门阻止-sS扫描。使用这些扫描可以发送特殊标记位的数据包 比如,-sF发送一个设置了FIN标志的数据包 它们和-sS一样也需要完成TCP的握手. 和sS扫描效果差不多,都比sT速度快 除了探测报文的标志位不同,三种扫描在行为上一致 优势:能躲过一些无状态防火墙和报文过滤路由器,比SYN还要隐秘 劣势:现代的IDS产品可以发现,并非所有的系统严格遵循RFC 793 即使SYN扫描都无法确定的情况下使用:一些防火墙和包过滤软件能够对发送到被限制端口的SYN数据包进行监视, 而且有些程序比如synlogger和courtney能够检测那些扫描。使用-sF、-sX、-sN可以逃过这些干扰。 这些扫描方式的理论依据是:关闭的端口需要对你的探测包回应RST包,而打开的端口必需忽略有问题的包。 FIN扫描使用暴露的FIN数据包来探测,而圣诞树扫描打开数据包的FIN、URG和PUSH标志。 由于微软决定完全忽略这个标准,另起炉灶。所以这种扫描方式对Windows无效。 不过,从另外的角度讲,可以使用这种方式来分别两种不同的平台。 如果使用这种扫描方式可以发现打开的端口,你就可以确定目标注意运行的不是Windows系统。 如果使用-sF、-sX或者-sN扫描显示所有的端口都是关闭的,而使用-sS(SYN)扫描显示有打开的端口,你可以确定目标主机可能运行的是Windwos系统。 现在这种方式没有什么太大的用处,因为nmap有内嵌的操作系统检测功能。还有其它几个系统使用和windows同样的处理方式,包括Cisco、BSDI、HP/UX、MYS、IRIX。 在应该抛弃数据包时,以上这些系统都会从打开的端口发出复位数据包。
[root@B ~]# nmap -sW 10.0.1.161 -p22 Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 13:17 CST Nmap scan report for 10.0.1.161 Host is up (0.0027s latency). PORT STATE SERVICE 22/tcp closed ssh MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 0.34 seconds [root@B ~]#
[root@B ~]# nmap -sV 10.0.1.161 Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 13:18 CST Nmap scan report for 10.0.1.161 Host is up (0.00017s latency). Not shown: 997 closed ports PORT STATE SERVICE VERSION 22/tcp open ssh OpenSSH 5.3 (protocol 2.0) 111/tcp open rpcbind 873/tcp open rsync (protocol version 30) MAC Address: 00:0C:29:56:DE:46 (VMware) Service detection performed. Please report any incorrect results at http://nmap.org/submit/ . Nmap done: 1 IP address (1 host up) scanned in 6.60 seconds [root@B ~]#
nmap及其少用的
[root@B ~]# nmap -iR 2 -Pn -p22 Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 13:51 CST Nmap scan report for LFbn-1-4041-19.w86-233.abo.wanadoo.fr (86.233.49.19) Host is up. PORT STATE SERVICE 22/tcp filtered ssh Nmap scan report for 209.236.30.216 Host is up. PORT STATE SERVICE 22/tcp filtered ssh Nmap done: 2 IP addresses (2 hosts up) scanned in 15.28 seconds [root@B ~]#
[root@B ~]# nmap --top-ports 5 10.0.1.161 Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 13:58 CST Nmap scan report for 10.0.1.161 Host is up (0.00074s latency). PORT STATE SERVICE 21/tcp closed ftp 22/tcp open ssh 23/tcp closed telnet 80/tcp closed http 443/tcp closed https MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 0.40 seconds [root@B ~]#
[root@B ~]# nmap --port-ratio 0.1 10.0.1.161 Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 13:59 CST Nmap scan report for 10.0.1.161 Host is up (0.0011s latency). PORT STATE SERVICE 21/tcp closed ftp 22/tcp open ssh 23/tcp closed telnet 25/tcp closed smtp 80/tcp closed http 443/tcp closed https MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 0.35 seconds [root@B ~]#
[root@B ~]# nmap -sO 10.0.1.161 Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 14:00 CST Stats: 0:04:10 elapsed; 0 hosts completed (1 up), 1 undergoing IPProto Scan IPProto Scan Timing: About 91.69% done; ETC: 14:05 (0:00:23 remaining) Nmap scan report for 10.0.1.161 Host is up (0.00082s latency). Not shown: 249 closed protocols PROTOCOL STATE SERVICE 1 open icmp 2 open|filtered igmp 6 open tcp 17 open udp 47 open|filtered gre 103 open|filtered pim 136 open|filtered udplite MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 289.19 seconds [root@B ~]#
[root@A ~]# netstat -lntp --inet | grep -v 127.0.0.1 Active Internet connections (only servers) Proto Recv-Q Send-Q Local Address Foreign Address State PID/Program name tcp 0 0 0.0.0.0:45654 0.0.0.0:* LISTEN 22257/nc tcp 0 0 0.0.0.0:22 0.0.0.0:* LISTEN 2157/sshd tcp 0 0 0.0.0.0:13306 0.0.0.0:* LISTEN 21699/mysqld tcp 0 0 0.0.0.0:873 0.0.0.0:* LISTEN 2640/rsync tcp 0 0 0.0.0.0:111 0.0.0.0:* LISTEN 21505/rpcbind [root@A ~]#
如下,对于一些端口号仍然没检测出
[root@B ~]# nmap 10.0.1.161 --allports Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 14:07 CST Nmap scan report for 10.0.1.161 Host is up (0.000098s latency). Not shown: 997 closed ports PORT STATE SERVICE 22/tcp open ssh 111/tcp open rpcbind 873/tcp open rsync MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 0.20 seconds [root@B ~]#
其余很少使用的参数
-P0 在扫描之前,不必ping主机。有些网络的防火墙不允许ICMPecho请求穿过,使用这个选项可以对这些网络进行扫描。microsoft.com就是一个例子,因此在扫描这个站点时,你应该一直使用-P0或者-PT80选项。 -PT 扫描之前,使用TCPping确定哪些主机正在运行。nmap不是通过发送ICMPecho请求包然后等待响应来实现这种功能,而是向目标网络(或者单一主机)发出TCPACK包然后等待回应。
[root@B ~]# nmap -A www.baidu.com Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 14:10 CST Nmap scan report for www.baidu.com (115.239.210.27) Host is up (0.0046s latency). Other addresses for www.baidu.com (not scanned): 115.239.211.112 Not shown: 998 filtered ports PORT STATE SERVICE VERSION 80/tcp open http Apache httpd |_http-methods: No Allow or Public header in OPTIONS response (status code 302) | http-robots.txt: 8 disallowed entries |_/baidu /s? /ulink? /link? /shifen/ /homepage/ /cpro / |_http-title: \xE7\x99\xBE\xE5\xBA\xA6\xE4\xB8\x80\xE4\xB8\x8B\xEF\xBC\x8C\xE4\xBD\xA0\xE5\xB0\xB1\xE7\x9F\xA5\xE9\x81\x93 |_http-favicon: 443/tcp open ssl/https? |_http-title: 405 Not Allowed |_http-methods: No Allow or Public header in OPTIONS response (status code 405) 1 service unrecognized despite returning data. If you know the service/version, please submit the following fingerprint at http://www.insecure.org/cgi-bin/servicefp-submit.cgi : SF-Port443-TCP:V=5.51%T=SSL%I=7%D=12/29%Time=5864A904%P=x86_64-redhat-linu SF:x-gnu%r(RTSPRequest,1000,"<html>\r\n<head>\r\n<meta\x20http-equiv=\"con SF:tent-type\"\x20content=\"text/html;charset=utf-8\">\r\n<style\x20data-f SF:or=\"result\"\x20id=\"css_result\">\r\nbody{color:#333;background:#fff; SF:padding:6px\x200\x200;margin:0;position:relative;min-width:900px}body,t SF:h,td,\.p1,\.p2{font-family:arial}p,form,ol,ul,li,dl,dt,dd,h3{margin:0;p SF:adding:0;list-style:none}input{padding-top:0;padding-bottom:0;-moz-box- SF:sizing:border-box;-webkit-box-sizing:border-box;box-sizing:border-box}t SF:able,img{border:0}td{font-size:9pt;line-height:18px}\r\n\r\n\r\n\r\n#fo SF:ot{font-size:12px}\.logo{width:117px;height:38px;cursor:pointer}\r\n\r\ SF:n#u,#head,#tool,#search,\.p1{line-height:120%;margin-left:-12pt}\.p2{wi SF:dth:100%;line-height:120%;margin-left:-12pt}#wrapper{_zoom:1}#container SF:{word-break:break-all;word-wrap:break-word}\.container_s{width:1002px}\ SF:.container_l{width:1222px}#content_left{width:636px;float:left;padding- SF:left:35px}#content_right{border-left:1px\x20solid\x20#e1e1e1;f")%r(RPCC SF:heck,1000,"HTTP/1\.1\x20302\x20Moved\x20Temporarily\r\nServer:\x20bfe/1 SF:\.0\.8\.18\r\nDate:\x20Thu,\x2029\x20Dec\x202016\x2006:11:16\x20GMT\r\n SF:Content-Type:\x20text/html\r\nContent-Length:\x2017931\r\nConnection:\x SF:20close\r\nETag:\x20\"54d9748e-460b\"\r\nSet-Cookie:\x20__bsi=168002475 SF:26252574989_00_4_R_N_0_0303_C02F_N_I_I_0;\x20expires=Thu,\x2029-Dec-16\ SF:x2006:11:21\x20GMT;\x20domain=www\.baidu\.com;\x20path=/\r\n\r\n<html>\ SF:r\n<head>\r\n<meta\x20http-equiv=\"content-type\"\x20content=\"text/htm SF:l;charset=utf-8\">\r\n<style\x20data-for=\"result\"\x20id=\"css_result\ SF:">\r\nbody{color:#333;background:#fff;padding:6px\x200\x200;margin:0;po SF:sition:relative;min-width:900px}body,th,td,\.p1,\.p2{font-family:arial} SF:p,form,ol,ul,li,dl,dt,dd,h3{margin:0;padding:0;list-style:none}input{pa SF:dding-top:0;padding-bottom:0;-moz-box-sizing:border-box;-webkit-box-siz SF:ing:border-box;box-sizing:border-box}table,img{border:0}td{font-size:9p SF:t;line-height:18px}\r\n\r\n\r\n\r\n#foot{font-size:12px}\.logo{width:11 SF:7px;height:38px;cursor:pointer}\r\n\r\n#u,#head,#tool,#"); Warning: OSScan results may be unreliable because we could not find at least 1 open and 1 closed port Device type: switch Running (JUST GUESSING): HP embedded (86%) Aggressive OS guesses: HP 4000M ProCurve switch (J4121A) (86%) No exact OS matches for host (test conditions non-ideal). Network Distance: 10 hops TRACEROUTE (using port 443/tcp) HOP RTT ADDRESS 1 ... 2 2.75 ms 192.168.19.2 3 2.09 ms 192.168.0.1 4 ... 9 10 3.60 ms 115.239.210.27 OS and Service detection performed. Please report any incorrect results at http://nmap.org/submit/ . Nmap done: 1 IP address (1 host up) scanned in 30.58 seconds [root@B ~]#
-e:指定网络接口,扫描时使用哪个网卡
[root@B ~]# nmap 10.0.1.161 -e eth0 Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 14:25 CST Nmap scan report for 10.0.1.161 Host is up (0.00020s latency). Not shown: 997 closed ports PORT STATE SERVICE 22/tcp open ssh 111/tcp open rpcbind 873/tcp open rsync MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 1.28 seconds [root@B ~]#
-S:可以伪装源地址进行扫描。这样好处在于不会被对方发现自己的真实IP
接下来我们来验证一下
A机器添加一条规则,比如,拒绝源地址为10.0.1.162的任何访问请求[root@A ~]# iptables -I INPUT -s 10.0.1.162 -j DROP [root@A ~]# iptables -L -n Chain INPUT (policy ACCEPT) target prot opt source destination DROP all -- 10.0.1.162 0.0.0.0/0 Chain FORWARD (policy ACCEPT) target prot opt source destination Chain OUTPUT (policy ACCEPT) target prot opt source destination [root@A ~]#
然后我们使用B机器伪装成10.0.1.167去扫描A机器,是可以扫描成功的
[root@B ~]# nmap -e eth0 10.0.1.161 -S 10.0.1.167 -Pn Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 14:30 CST Nmap scan report for 10.0.1.161 Host is up (0.0016s latency). Not shown: 997 closed ports PORT STATE SERVICE 22/tcp open ssh 111/tcp open rpcbind 873/tcp open rsync MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 0.47 seconds [root@B ~]#
假如我们在A机器上禁止源地址为10.0.1.167的访问请求,那么B机器就应该无法扫描A的端口了。我们来验证下
A机器禁止源地址为10.0.1.167的机器访问
[root@A ~]# iptables -I INPUT -s 10.0.1.167 -j DROP [root@A ~]# iptables -L -n Chain INPUT (policy ACCEPT) target prot opt source destination DROP all -- 10.0.1.167 0.0.0.0/0 DROP all -- 10.0.1.162 0.0.0.0/0 Chain FORWARD (policy ACCEPT) target prot opt source destination Chain OUTPUT (policy ACCEPT) target prot opt source destination [root@A ~]#
B机器伪装成10.0.1.167扫描A机器,扫描不到对方端口
[root@B ~]# nmap -e eth0 10.0.1.161 -S 10.0.1.167 -Pn Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 14:33 CST Nmap scan report for 10.0.1.161 Host is up (0.0012s latency). All 1000 scanned ports on 10.0.1.161 are filtered MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 22.95 seconds [root@B ~]#
如果我们伪装成别的地址就应该能继续扫描到端口
我们伪装成了10.0.1.168,扫描成功
[root@B ~]# nmap -e eth0 10.0.1.161 -S 10.0.1.168 -Pn Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 14:34 CST Nmap scan report for 10.0.1.161 Host is up (0.00026s latency). Not shown: 997 closed ports PORT STATE SERVICE 22/tcp open ssh 111/tcp open rpcbind 873/tcp open rsync MAC Address: 00:0C:29:56:DE:46 (VMware) Nmap done: 1 IP address (1 host up) scanned in 0.50 seconds [root@B ~]#
[root@B ~]# nmap -iflist Starting Nmap 5.51 ( http://nmap.org ) at 2016-12-29 14:37 CST ************************INTERFACES************************ DEV (SHORT) IP/MASK TYPE UP MTU MAC lo (lo) 127.0.0.1/8 loopback up 65536 eth0 (eth0) 10.0.1.162/24 ethernet up 1500 00:0C:29:11:64:A1 **************************ROUTES************************** DST/MASK DEV GATEWAY 10.0.1.0/24 eth0 169.254.0.0/16 eth0 0.0.0.0/0 eth0 10.0.1.1 [root@B ~]# route -n Kernel IP routing table Destination Gateway Genmask Flags Metric Ref Use Iface 10.0.1.0 0.0.0.0 255.255.255.0 U 0 0 0 eth0 169.254.0.0 0.0.0.0 255.255.0.0 U 1002 0 0 eth0 0.0.0.0 10.0.1.1 0.0.0.0 UG 0 0 0 eth0 [root@B ~]#
nmap功能参数还有很多,个人觉得以上功能能应付工作中99%的需要了。没特殊必要,不用花太多时间在上面。
小结:
nmap工具很强大。建议先用Nmap扫描一个熟悉的系统,感觉一下Nmap的基本运行模式,熟悉之后,再将扫描范围扩大到其他系统。首先扫描内部网络看看Nmap报告的结果,然后从一个外部IP地址扫描,注意防火墙、入侵检测系统(IDS)以及其他工具对扫描操作的反应。 通常,TCP connect()会引起IDS系统的反应(默认的nmap扫描就是sT的方式,也就是3次握手的方式扫描) 但IDS不一定会记录俗称“半连接”的TCP SYN扫描(-sS方式的)。 如果你打算熟悉和使用Nmap,下面几点经验可能对你有帮助: 1、 避免误解。不要随意选择测试Nmap的扫描目标。许多单位把端口扫描视为恶意行为,所以测试Nmap最好在内部网络进行。如有必要,应该告诉同事你正在试验端口扫描,因为扫描可能引发IDS警报以及其他网络问题。 2、 关闭不必要的服务。根据Nmap提供的报告(同时考虑网络的安全要求),关闭不必要的服务,或者调整路由器的访问控制规则(ACL),禁用网络开放给外界的某些端口。 3、 建立安全基准。在Nmap的帮助下加固网络、搞清楚哪些系统和服务可能受到攻击之后,下一步是从这些已知的系统和服务出发建立一个安全基准,以后如果要启用新的服务或者服务器,就可以方便地根据这个安全基准执行。
一些nmap相关的链接,有时间可以参照下,这两篇笔记总结的比较全了
http://www.91ri.org/4105.html
http://www.91ri.org/3870.html
http://blog.163.com/jianshitianxia_ao/blog/static/1765693842012731114821230/
https://nmap.org/download.html#windows
http://www.91ri.org/8516.html
http://blog.csdn.net/huangwwu11/article/details/20230795
http://blog.csdn.net/tan6600/article/details/45340511
来源:https://www.cnblogs.com/nmap/p/6232969.html