Skip to content

Instantly share code, notes, and snippets.

@Lense
Last active March 6, 2018 03:34
Show Gist options
  • Save Lense/421d39318745549a0f26aef44541c8ef to your computer and use it in GitHub Desktop.
Save Lense/421d39318745549a0f26aef44541c8ef to your computer and use it in GitHub Desktop.
SECCON 2016 quals: randomware

randomware

SECCON 2016 quals

description

300 points
My PC suddenly got broken. Could you help me to recover it please?
NOTE: The disk can be virus-infected. DO NOT RUN any programs extracted from the disk outside of sandbox.
disk.qcow2.zip
Challenge files is huge, please download it first. Password will release after 60min.
password: h9nn4c2955kik9qti9xphuxti

Solution

Boot

First thing I did was boot up the image. I used vmware with qemu-img convert -f qcow2 -O vmdk disk.qcow2. It's some custom bootloader that starts with
https://puu.sh/sLf1F.png
and then shows a rainbow:
https://puu.sh/sLf2c.png

Extract

I converted qcow image to a raw disk image: qemu-img convert -f qcow2 -O raw disk.qcow2 disk.raw. Disk tools didn't work since the MBR was overwritten, so I ended up using binwalk to extract the files. First interesting thing was 23D70D, which is an ELF. Looking at strings suggest that it's a Linux kernel, specifically: Linux version 4.2.9-tinycore (tc@box) (gcc version 5.2.0 (GCC) ) #1999 SMP Mon Jan 18 19:42:12 UTC 2016. There also looks like a dump of the fs, split across multiple squashfs directories, but there wasn't anything all that interesting in there (except that firefox-esr is installed). I ended up doing grep SECCON . -r which has exactly one result: 512CE00, a tar. Extracting that gives opt/ and the very interesting home/ directory.

Reverse

in home/tc/ there is an ELF getflag and an encrypted h1dd3n_s3cr3t_f14g.jpg. I resisted the temptation to run getflag on my host and instead dropped it into IDA Pro. It's small and not stripped with only 5 non-library functions, and only 3 functions that really matter: main, recdir, and encrypt.

main

https://puu.sh/sLgRp.png

  1. Downloads flag from a local server
  2. Calls get_root_dev (just stat("/home/", root_dev) for some reason)
  3. Calls get_key (sets encrypt_key to 1024 bytes from /dev/urandom)
  4. Calls recdir("/home/tc")
  5. Writes bootloader from memory to /dev/sda

recdir

Walks the filesystem from /home/ and calls encrypt on files that have an extension in the whitelist which is pdf, xml, bin, txt, or various image and office types.

encrypt

Encrypts files with repeated xor key (length 1024). Encryption loop:
https://puu.sh/sLi7G.png

Decrypt

(Brief description of xor: 1^0==1, 0^1==1, 0^0==0, 1^1==0. ciphertext = key ^ plaintext but also key = plaintext ^ ciphertext)
So, xor block ciphers are vulnerable to known-plaintext attacks, and we just have to find some plaintext. We know the header of a JPEG, so we can get the first few bytes of the key, but that's not enough.

mime-types

Fortunately, there are also hidden files in the home directory. Searching for whitelisted file extensions gives some mime-type XML files, and blocklist.xml and revocations.txt in a Firefox profile. The mime-type files were all < 1024 bytes, with the longest, .local/share/mime/packages/user-extension-xhtml.xml, being 254 bytes. I happen to have the same file on my computer with a matching size, so by xoring the two files I got the first 254 bytes of the key (since ciphertext ^ plaintext = key). Around 1/4 of the key still isn't enough to view the image, though, so I moved on to the Firefox files.

<?xml version="1.0" encoding="UTF-8"?>
<mime-info xmlns="http://www.freedesktop.org/standards/shared-mime-info">
 <mime-type type="application/x-extension-xhtml">
  <comment>xhtml document</comment>
  <glob pattern="*.xhtml"/>
 </mime-type>
</mime-info>

blocklist.xml

After some research I discovered that blocklist.xml is updated once a day. The one in the challenge was last modified Nov 28, and mine was last modified Dec 10 with a significantly different size. From about:config I found https://blocklist.addons.mozilla.org/blocklist/3/%APP_ID%/%APP_VERSION%/%PRODUCT%/%BUILD_ID%/%BUILD_TARGET%/%LOCALE%/%CHANNEL%/%OS_VERSION%/%DISTRIBUTION%/%DISTRIBUTION_VERSION%/%PING_COUNT%/%TOTAL_PING_COUNT%/%DAYS_SINCE_LAST_PING%/, but I don't know valid arguments, and it looks like there's no way to request historical versions of the file. I spent a fair amount of time on that before giving up and going the more effort way: since XML has a standard format, you can guess a few characters after what's decrypted, use that to get a few more bytes of the key, and repeat for any index multiple of 1024 in the file.

Example

We have a plaintext mime-type file and a ciphertext mime-type file which we xor to get the first 254 bytes of the key. xoring the partial key with the start of the encrypted blocklist.xml gives:

<?xml version="1.0"?>
<blocklist xmlns="http://www.mozilla.org/2006/addons-blocklist" lastupdate="1456184414000">
  <emItems>
      <emItem  blockID="i58" id="[email protected]">
                        <versionRange  minVersion="0" maxVersion=

We assume that the value of maxVersion is a string (to match minVersion and because it's that way in the newest version of the file), so we now have 255 plaintext bytes which we can xor with the ciphertext and get 255 bytes of the key. Next, we shift to index 1024 in the ciphertext (since the xor cipher has a block size of 1024) and xor 255 bytes with the key to get more plaintext:

       <versionRange  minVersion="0" maxVersion="*" severity="1">
                    </versionRange>
                    <prefs>
              </prefs>
    </emItem>
      <emItem  blockID="i105" id="{95ff02bc-ffc6-45f0-a5c8-619b8226a9de}">
            

(there's a newline and a bunch of spaces at the end there) Sadly, we don't know what comes next this time, so we move on to index 2048.

We repeat until we get the key to length 1024.

Note: if you're doing this in vim, you'll want these options: :set binary and :set noendofline. They will keep vim from messing with tabs and spaces and from appending a hidden newline to the end of the file.

Code

I scripted as much as possible, but it still requires manual intervention on each iteration.

#!/usr/bin/python2

def xor(xs, ys):
	return "".join([chr(ord(x) ^ ord(y)) for x, y in zip(xs, ys)])

def fread(path):
	with open(path) as f:
		return f.read()

def fwrite(path, data):
	with open(path, "w") as f:
		return f.write(data)

gooduserxml = fread("user-extension-xhtml.xml")
baduserxml = fread("home/tc/.local/share/mime/packages/user-extension-xhtml.xml")
badflag = fread("home/tc/h1dd3n_s3cr3t_f14g.jpg")
badblocklist = fread("home/tc/.mozilla/firefox/wir5mrmb.default/blocklist.xml")
# If working key is there, use it, else calculate first 254 bytes
try:
	key = fread("key")
except IOError:
	key = xor(gooduserxml, baduserxml)

i = 0
while len(key) != 1024:
	fwrite("partialblocklist.xml", xor(badblocklist[i:i+len(key)], key))
	# Append to partialblocklist.xml, and then press enter
	raw_input("cur key len: " + str(len(key)))

	partialblocklist = fread("partialblocklist.xml")
	key = xor(partialblocklist, badblocklist[i:i+len(partialblocklist)])[:1024]
	fwrite("key", key)
	i = i + 1024 if i < len(badblocklist) - 2048 else 0

fwrite("flag.jpg", xor(badflag, key))

Flag

Picture of some meat with text SECCON{This is Virtual FAT too}

@Lense
Copy link
Author

Lense commented Dec 11, 2016

turns out there was squashfs-root-57/usr/local/firefox-ESR/browser/blocklist.xml

Sign up for free to join this conversation on GitHub. Already have an account? Sign in to comment