2022-05-10 16:26:48 +00:00
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---
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title: "Decrypting cryptolocked partition | EXTerminated @ FCSC 2022"
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date: "2022-05-08 19:00:00"
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author: "Juju"
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tags: ["Reverse", "Writeup", "fcsc"]
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toc: true
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---
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# Intro
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EXTerminated is a malware reversing challenge. You are handed an EXT4 partition
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that has been encrypted by a malware, your goal is to recover the original
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unencrypted files.
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The description of the challenge tells us that the malware does not use any
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known cryptosystem to encrypt data, let's find this out.
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{{< image src="/EXTerminated/panik.png" style="border-radius: 8px;" >}}
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## Challenge description
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2024-04-14 21:13:12 +00:00
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`reverse` | `472 pts` `12 solves` :star::star:
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2022-05-10 16:26:48 +00:00
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```
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Un client a détecté un seveur compromis sur son parc. Ce serveur semble avoir
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perdu l'ensemble de ses données suite à une infection. Il nous indique que les
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attaquants exigent une rançon et affirment pouvoir récupérer les fichiers
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disparus.
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Une analyse rapide du virus indique que ce dernier ne disposerait à première
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vue d'aucun algorithme cryptographique connu.
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On vous demande d'analyser ce disque, et de récupérer les fichiers originaux.
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SHA256(disk.img) = a9e7891224868af43e2aa134152beaa2a83f43cde21af8038d138001377157dc.
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```
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Author: `Nofix`
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## Given files
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[disk.img](/EXTerminated/disk.img)
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# Writeup
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## Overview
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So we can see we are given an EXT4 partition.
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```console
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$ file disk.img
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disk.img: Linux rev 1.0 ext4 filesystem data,
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UUID=c26167b3-e0b9-441d-ab4d-a5f4b5b1fcd0 (extents) (64bit) (large files)
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(huge files)
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```
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Let's try to mount it.
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We can see that there are multiple pictures, a pdf and an executable called
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`wannaweep`, which is probably our malware.
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```console
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$ sudo mount -o loop ./disk.img mnt/
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$ tree mnt/
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mnt/
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├── Documents
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│ └── anssi-guide-ransomware_attacks_all_concerned-v1.0.pdf
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├── Images
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│ ├── accident.png
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│ ├── disk.jpg
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│ ├── flag.jpg
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│ ├── martine.jpg
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│ ├── smile.png
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│ ├── tintin.jpeg
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│ └── valide.png
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├── lost+found [error opening dir]
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└── wannaweep
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3 directories, 9 files
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```
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By further investigating we can see that all data of the files have been erased
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except for wannaweep, which definitely is the malware, an x64 stripped and
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dinamically linked ELF.
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```console
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$ file mnt/Images/flag.jpg
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mnt/Images/flag.jpg: data
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$ xxd mnt/Images/flag.jpg | head
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00000000: 0000 0000 0000 0000 0000 0000 0000 0000 ................
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00000010: 0000 0000 0000 0000 0000 0000 0000 0000 ................
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00000020: 0000 0000 0000 0000 0000 0000 0000 0000 ................
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00000030: 0000 0000 0000 0000 0000 0000 0000 0000 ................
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00000040: 0000 0000 0000 0000 0000 0000 0000 0000 ................
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00000050: 0000 0000 0000 0000 0000 0000 0000 0000 ................
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00000060: 0000 0000 0000 0000 0000 0000 0000 0000 ................
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00000070: 0000 0000 0000 0000 0000 0000 0000 0000 ................
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00000080: 0000 0000 0000 0000 0000 0000 0000 0000 ................
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00000090: 0000 0000 0000 0000 0000 0000 0000 0000 ................
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$ file mnt/wannaweep
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mnt/wannaweep: ELF 64-bit LSB executable, x86-64, version 1 (SYSV),
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dynamically linked, interpreter /lib64/ld-linux-x86-64.so.2,
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BuildID[sha1]=590a9f68cde37ffceb8e7441db343742e4032f47, for GNU/Linux
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3.2.0, stripped
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```
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We can see that the binary links to `libext2fs.so.2`, a library for EXT file
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system parsing and manipulation. Since it is dinamically linked we will still
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have the corresponding symbols so I'm guessing I won't have too much trouble
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understanding what the malware does even though I do not know the EXT
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specification.
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```console
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$ ldd mnt/wannaweep
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linux-vdso.so.1 (0x00007ffccb2b3000)
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libext2fs.so.2 => /usr/lib/libext2fs.so.2 (0x00007f8059117000)
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libcom_err.so.2 => /usr/lib/libcom_err.so.2 (0x00007f8059111000)
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libc.so.6 => /usr/lib/libc.so.6 (0x00007f8058f07000)
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/lib64/ld-linux-x86-64.so.2 => /usr/lib64/ld-linux-x86-64.so.2 (0x00007f80591ad000)
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```
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## Main
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It is now the perfect time for me to absolutely not launch this program, I
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could have setup a sandboxed environment but it turned out it wasn't necessary,
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the code was really straight forward.
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So I start my favorite decompiler and I download the source code of libext2fs.
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A small fast forward in time as the main function is really straight forward,
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The program takes the path to the device to encrypt as argument, calls a bunch
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of function that are mostly wrappers around libext2fs functions to initialize
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2022-09-04 19:40:59 +00:00
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some global variables holding structures of the EXT filesystem. It also checks
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2022-05-10 16:26:48 +00:00
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that some flags are set in the structures of libext2fs, I do not know if these
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flags are implementation specific or are standard EXT flags but I did not
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bother too much with this.
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2022-09-04 19:40:59 +00:00
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The interesting stuff is at the end, I can see that it calls a function that
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2022-05-10 16:26:48 +00:00
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I called `encrypt_folder` after reversing it. It then flushes the filesystem to
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disk and write the inode bitmap.
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{{< code file="/static/EXTerminated/main.c" language="c" >}}
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## Encrypt folder
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Alright so let's take a look at the `encrypt_folder` to understand why I called
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it this way.
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2022-09-04 19:40:59 +00:00
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I could clearly see from `main` that this function was called with the string
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`.` to reference the current directory, and a function pointer that was still
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2022-05-10 16:26:48 +00:00
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unkown to me at the time but that I renamed `encrypt_file`.
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How I knew that the function was encrypting folders and that the parameter was
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a callback to encrypt files is really simple, you can clearly see the libc
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symbols calling `opendir` on the path given as argument (`.`), reading all the
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entries of the directory and calling the callback if the entry is a file.
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If it is not a file, it will `chdir` in the said directory, before recursively
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calling itself with the same arguments.
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{{< code file="/static/EXTerminated/encrypt_folder.c" language="c" >}}
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## Encrypt file
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Let's now look at the `encrypt_file` we guessed. Again, mostly wrapper
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functions so I did not bother to show you why I named them this way, the code
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basically reads the content of the file to encrypt, encrypts it in a dedicated
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block, puts it in the file system before deleting the original content of the
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file.
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{{< code file="/static/EXTerminated/encrypt_file.c" language="c" >}}
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## Encrypt block
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Well, I was scared of custom cryptography but this seems simple enough for me.
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To encrypt a plain text block, the malware starts at the last byte of the block
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and xor it with the previous one until it reaches the start.
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Actually this function does a heap buffer underflow when xoring the first byte
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of the block, since it will xor it with the byte right before the block in the
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heap.
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Reversing the encryption is trivial, the only undefined behaviours is with the
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underflow because we cannot know the value of the byte preceding the block.
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However, I assumed it would really likely be 0.
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{{< code file="/static/EXTerminated/encrypt_block.c" language="c" >}}
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## Decrypting
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So to decrypt a block, we simply need to know the value of the byte preceding
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the buffer. Let's assume it is 0 since it is the most likely.
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I will xor this byte with the first byte of cipher text and that will give
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me the first byte of plain text, I then repeat the operation, xoring the
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first byte of plain text with the second byte of cipher text and I do this
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for the whole block to recover the entire block.
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## Solve
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So know I know how to decrypt a block, let's decrypt the whole filesystem.
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I could do something really smart and overengineered to recover a valid
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decrypted EXT filesystem that I could mount to recover the original files.
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However I'm not familiar with the EXT specification and their are still small
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shadow zones in the malware code for me, so I try a naive solution.
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I'm guessing that data blocks of files or all alligned on `0x1000`, it would be
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kind of weird otherwise for me. So if I just cut the whole filesystem in
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`0x1000` sized blocks without any consideration of the semantic of those blocks
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in the EXT structure, I could just decrypt each of these blocks individually,
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and prey that I recover some files whose blocks were contiguous in the EXT
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structure.
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Obviously that will corrupt all the EXT metadata but it doesn't really matter
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as long as I can recover the files.
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{{< code file="/static/EXTerminated/decrypt.py" language="py" >}}
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Now let's try to output the result and see if we find any file signatures:
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```console
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$ ./decrypt.py > decrypted.img
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$ binwalk decrypted.img
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DECIMAL HEXADECIMAL DESCRIPTION
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--------------------------------------------------------------------------------
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9289728 0x8DC000 PNG image, 473 x 306, 8-bit/color RGB, non-interlaced
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9531392 0x917000 JPEG image data, JFIF standard 1.01
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9625600 0x92E000 PNG image, 500 x 564, 8-bit/color RGBA, non-interlaced
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10125312 0x9A8000 JPEG image data, JFIF standard 1.01
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10212833 0x9BD5E1 bix header, header size: 64 bytes, header CRC: 0x6003083D, created: 2004-01-10 13:39:36, image size: 2097152 bytes, Data Address: 0x22120000, Entry Point: 0x1E040003, data CRC: 0xD2100008, CPU: IA64, image name: ""
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10231808 0x9C2000 JPEG image data, EXIF standard
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10231820 0x9C200C TIFF image data, big-endian, offset of first image directory: 8
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10330112 0x9DA000 JPEG image data, EXIF standard
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10330124 0x9DA00C TIFF image data, big-endian, offset of first image directory: 8
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10403840 0x9EC000 PNG image, 482 x 367, 8-bit/color RGB, non-interlaced
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10403902 0x9EC03E Zlib compressed data, default compression
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34263365 0x20AD145 Cisco IOS experimental microcode, for ""
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46640306 0x2C7ACB2 MySQL ISAM compressed data file Version 9
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46691658 0x2C8754A GIF image data 15531 x
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```
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We do! So let's try to extract them
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```console
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$ binwalk --dd='.*' decrypted.img
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DECIMAL HEXADECIMAL DESCRIPTION
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--------------------------------------------------------------------------------
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9289728 0x8DC000 PNG image, 473 x 306, 8-bit/color RGB, non-interlaced
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9531392 0x917000 JPEG image data, JFIF standard 1.01
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9625600 0x92E000 PNG image, 500 x 564, 8-bit/color RGBA, non-interlaced
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10125312 0x9A8000 JPEG image data, JFIF standard 1.01
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10212833 0x9BD5E1 bix header, header size: 64 bytes, header CRC: 0x6003083D, created: 2004-01-10 13:39:36, image size: 2097152 bytes, Data Address: 0x22120000, Entry Point: 0x1E040003, data CRC: 0xD2100008, CPU: IA64, image name: ""
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10231808 0x9C2000 JPEG image data, EXIF standard
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10231820 0x9C200C TIFF image data, big-endian, offset of first image directory: 8
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10330112 0x9DA000 JPEG image data, EXIF standard
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10330124 0x9DA00C TIFF image data, big-endian, offset of first image directory: 8
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10403840 0x9EC000 PNG image, 482 x 367, 8-bit/color RGB, non-interlaced
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10403902 0x9EC03E Zlib compressed data, default compression
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34263365 0x20AD145 Cisco IOS experimental microcode, for ""
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46640306 0x2C7ACB2 MySQL ISAM compressed data file Version 9
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46691658 0x2C8754A GIF image data 15531 x
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$ file _decrypted.img.extracted/*
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_decrypted.img.extracted/2C7ACB2: MySQL ISAM compressed data file Version 9
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_decrypted.img.extracted/2C8754A: GIF image data 15531 x
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_decrypted.img.extracted/8DC000: PNG image data, 473 x 306, 8-bit/color RGB, non-interlaced
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_decrypted.img.extracted/9A8000: JPEG image data, JFIF standard 1.01, aspect ratio, density 1x1, segment length 16, progressive, precision 8, 660x424, components 3
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_decrypted.img.extracted/9BD5E1: data
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_decrypted.img.extracted/9C200C: TIFF image data, big-endian, direntries=0
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_decrypted.img.extracted/9C2000: JPEG image data, Exif standard: [TIFF image data, big-endian, direntries=0], comment: "CREATOR: gd-jpeg v1.0 (using IJG JPEG v62), quality = 90", baseline, precision 8, 481x600, components 3
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_decrypted.img.extracted/9DA000: JPEG image data, Exif standard: [TIFF image data, big-endian, direntries=0], baseline, precision 8, 683x500, components 3
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_decrypted.img.extracted/9DA00C: TIFF image data, big-endian, direntries=0
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_decrypted.img.extracted/9EC000: PNG image data, 482 x 367, 8-bit/color RGB, non-interlaced
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_decrypted.img.extracted/9EC03E: empty
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_decrypted.img.extracted/9EC03E-0: zlib compressed data
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_decrypted.img.extracted/20AD145: cisco IOS experimental microcode for ''
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_decrypted.img.extracted/92E000: PNG image data, 500 x 564, 8-bit/color RGBA, non-interlaced
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_decrypted.img.extracted/917000: JPEG image data, JFIF standard 1.01, aspect ratio, density 1x1, segment length 16, baseline, precision 8, 495x669, components 3
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```
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Displaying the images we just extracted, we find the following one, giving us
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the flag.
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{{< image src="/EXTerminated/flag.png" style="border-radius: 8px;" >}}
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